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British Journal of Dermatology

Oxford University Press (OUP)

Preprints posted in the last 7 days, ranked by how well they match British Journal of Dermatology's content profile, based on 11 papers previously published here. The average preprint has a 0.01% match score for this journal, so anything above that is already an above-average fit.

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Retrospective Study Of Patterns Of Failure In Cutaneous Squamous Cell Carcinoma Treated With Primary Surgery: A Tata Medical Center Experience

Tyagi, P.; Chakraborty, S.; Bardiya, A.; Panchal, K. B.; Kaur, A.; Maity, S.; Biswas, G.; Shah, S.

2026-07-09 oncology 10.64898/2026.07.02.26357153 medRxiv
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Background: Cutaneous squamous cell carcinoma (cSCC) accounts for a significant proportion of skin malignancies in India, yet data on patterns of failure, particularly for extremity and truncal primaries remain scarce. We audited a decade of surgically treated cSCC at a tertiary cancer center to characterize failure patterns and associated risk factors. Methods: This retrospective study included 161 patients with histopathologically confirmed cSCC treated surgically between January 2013 and December 2023, comprising 127 upfront/residual and 34 recurrent presentations. Primary sites were extremities (64%), head and neck (26%) and torso (10%). 21 patients had Marjolin's ulcer. Outcomes included local, regional and distant failure, recurrence-free survival and overall survival. Brigham and Women's Hospital (BWH) staging was applied to assess prognostic utility. Statistical analysis was done using Kaplan-Meier and competing-risk methods. Results: Median follow-up was 2.4 years. Regional recurrence was the predominant failure pattern seen in 26 patients, local recurrence was seen in 14 patients and distant metastasis in 13. The 3-year cumulative incidences of local, regional and distant failure were 11%, 19% and 8.4% respectively. Rates of regional recurrence were substantially higher than Western series. Extremity primaries accounted for 19/26 regional recurrences. BWH T2b disease showed the highest regional failure rate (27.6%), exceeding T3 (17.8%) and T2a (6%) with perineural invasion significantly associated with regional failure in T2b/T3 tumors (p<0.001). Median time to regional metastasis was 8.4 months. At 3 years, overall survival was 77% and progression-free survival was 64%. Conclusion: Regional recurrence is the dominant mode of failure in this cohort, at rates higher than most published series, with extremity primaries and BWH T2b staging identifying particularly high-risk subgroups. These findings highlight the need for a comprehensive staging system encompassing non head and neck cSCC and support prospective evaluation of elective nodal staging and adjuvant radiotherapy in high-risk patients, alongside intensified surveillance.

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Systemic, RPE-directed AAV-Tyrosinase therapy restores ocular pigmentation in an OCA1 mouse model

Larimer-Picciani, A. M.; Jacob, L. B.; Sullinger, K. J.; Kriebel, W. G.; Sahel, J.-A.; Byrne, L. C.

2026-07-09 molecular biology 10.64898/2026.07.01.735814 medRxiv
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Oculocutaneous albinism type 1 (OCA1) is a pigmentation disorder caused by biallelic tyrosinase (TYR) mutations, an essential enzyme for melanin synthesis. TYR inactivity results in loss of hair, skin, and eye pigment, which is detrimental for ocular function. Hypopigmentation of iris, retinal pigment epithelium (RPE), and choroid results in severe photosensitivity and low visual acuity. There are currently no FDA-approved pigment restoring therapies for OCA1, making therapeutic development an unmet clinical need. To address this gap, we have advanced an adeno-associated viral (AAV)-mediated Tyr replacement approach for OCA1 ocular pigment restoration. We evaluated the optimal viral delivery strategy and vector cell-type specificity for iris, RPE, and choroid pigmentation in an OCA1 mouse model, testing intraocular and systemic viral delivery methods in conjunction with viral constructs of varying RPE-specificity. Early, systemic delivery of an RPE-directed AAV-Tyr construct, AAV9.2yf-VMD2-Tyr, achieved widespread ocular pigment rescue with minimal off-target expression in non-ocular tissues. Animals treated with AAV9.2yf-VMD2-Tyr demonstrated reduced photophobic behavior compared to untreated controls, indicating that ocular pigmentation restores a debilitating functional consequence of OCA1. Our findings establish a foundation for clinical translation of an AAV-TYR therapy aimed at improving light sensitivity, glare, and low vision through pigment restoration in patients with OCA1.

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Identifying protein biomarkers and therapeutic targets in psoriasis through integrative genomic, proteomic and transcriptomic analysis

Meena, D.; Chalitsios, C. V.; Huang, J.; Meena, N.; Wu, S.; Smith, A.; Antonatos, C.; Vasilopoulos, Y.; Yarmolinsky, J.; Gill, D.; Dehghan, A.; Tsilidis, K. K.; Tzoulaki, I.

2026-07-13 genetic and genomic medicine 10.64898/2026.07.09.26357649 medRxiv
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Plasma proteins are promising biomarkers and potential drug targets in psoriasis. We conducted a two-sample Mendelian randomisation analysis integrating protein quantitative trait loci from UK Biobank and deCODE genetics with a psoriasis GWAS meta-analysis of 36,466 cases. To strengthen causal inference, we performed colocalisation analyses to evaluate shared genetic signals and applied summary data-based MR (SMR) with HEIDI testing using expression quantitative trait loci to exclude linkage-driven associations. After correction for multiple testing, 78 circulating proteins showed genetically predicted associations with psoriasis, with 27 demonstrating strong colocalisation (PPH4>80%). Triangulation prioritised 12 Tier 1 proteins, STX4, FLT3, NFKB1, IL18, PRSS53, SPAG1, SGSH, PLAT, RALB, TNFSF11, SPHK2, and STAT3, supported by consistent effects and no heterogeneity. Network profiling and Genome for REPositioning analyses assessed biological connectivity and druggability, revealing enrichment in anatomical therapeutic chemical groups L and B. Single-cell RNA sequencing confirmed cell-type-specific expression and modulation following IL-23 blockade.

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HIV as a Host Susceptibility State for Severe Drug Hypersensitivity: Disentangling Biological Susceptibility from Drug Exposure in the FAERS Database

Mukherjee, E. M.; Park, D.; Asiaee, A.; Krantz, M. S.; Stone, C. A.; Martin-Pozo, M. D.; Phillips, E. J.

2026-07-09 dermatology 10.64898/2026.07.07.26356279 medRxiv
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Background: HIV infection has long been associated with increased incidence of severe cutaneous adverse reactions (SCAR). It remains unknown whether this increased incidence is a direct biological result of HIV infection, differences in drug exposure, or other demographic factors. Objective: To evaluate the association between HIV and SCAR and determine whether this relationship persists after adjusting for demographic factors and structured drug exposure. Methods: We analyzed reports from the FDA Adverse Event Reporting System (FAERS) from 2013-2023. SCAR outcomes included Stevens-Johnson syndrome/toxic epidermal necrolysis (SJS/TEN), drug reaction with eosinophilia and systemic symptoms (DRESS), acute generalized exanthematous pustulosis (AGEP), and generalized bullous fixed drug eruption (GBFDE). HIV status was determined using antiretroviral exposure, indication text, and machine-learning imputation. Logistic regression models were constructed sequentially: unadjusted, demographic-adjusted, and fully adjusted with drug principal components to account for polypharmacy. Drug-level disproportionality and HIV-drug interaction analyses were also performed. Results: In unadjusted models, HIV was strongly associated with SCAR (OR ~2.0-2.7). Adjustment for demographics attenuated this association, and further adjustment for drug exposure reduced the effect to near null for overall SCAR and DRESS. A modest residual association persisted for SJS/TEN (OR ~1.3). Disproportionality analyses demonstrated enrichment of specific high-risk drugs in PLWH. Interaction modeling revealed drug-specific amplification of SCAR risk in HIV, notably for carbamazepine and clarithromycin, whereas other drugs showed minimal interaction. Conclusion: The association between HIV and SCAR is largely explained by differences in drug exposure and demographic factors. Residual risk is drug-specific rather than uniform, supporting a model in which HIV modifies susceptibility to select drug triggers rather than acting as a global risk factor. Further prospective and retrospective studies are required to quantify associations.

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Comparison of Relapse Rate and Disease Severity among patients with Type 2 Lepra Reaction receiving Tofacitinib and Thalidomide separately as an adjuvant to systemic steroids: A Longitudinal Analytical Study

Sanghai, R.; Naik, B. N.; Gupta, R.; Dash, G.; Mathews, I.; Pradhan, S.

2026-07-10 dermatology 10.64898/2026.07.07.26357443 medRxiv
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Background Erythema nodosum leprosum (ENL) is a severe immune-mediated complication of multibacillary leprosy requiring prolonged immunosuppression. Steroid-sparing agents are essential to reduce relapse and treatment-related morbidity. Methods This longitudinal analytical observational study compared outcomes in patients with ENL treated with prednisolone plus thalidomide (Group A; n=30) and prednisolone plus tofacitinib (Group B; n=31). Patients were followed for 6 months. Primary outcomes included relapse rate and ENLIST ENL Severity Score (EESS). Secondary outcomes were neutrophil-lymphocyte ratio (NLR), Dermatology Life Quality Index (DLQI), steroid dependency, and adverse events. Inter-group comparisons and longitudinal analyses were performed using non-parametric tests. Correlations between NLR, EESS, and DLQI were assessed using Spearmans rank correlation. Results Relapse occurred in 36.7% of patients in Group A and 71.0% in Group B (p=0.007). The mean number of relapses was significantly lower in Group A (0.70{+/-}1.06 vs 1.84{+/-}1.51, p=0.002). At 3 and 6 months, Group A demonstrated significantly lower NLR values (p=0.017 and p<0.001, respectively). DLQI and EESS scores improved in both groups; however, sustained improvement was more consistent in Group A. Steroid-free status at 6 months was achieved in 93.3% of Group A compared with 58.1% of Group B (p<0.001). NLR showed a positive correlation with EESS ({rho}=0.269, p=0.018) and DLQI ({rho}=0.604, p<0.001) at 6 months. On multivariable logistic regression analysis adjusting for baseline confounders, patients receiving tofacitinib had significantly higher odds of relapse compared with those receiving thalidomide (adjusted OR 9.87, 95% CI 1.73-27.12; p = 0.006).Adverse events were predominantly mild to moderate, with differing safety profiles between groups. Conclusion Thalidomide demonstrated superior relapse prevention and steroid-sparing efficacy compared with tofacitinib in ENL. NLR correlated with disease severity and quality of life, supporting its role as a useful biomarker for monitoring disease activity during follow-up.

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Aqueous Humor Liquid Biopsy Enables Multi-Omics Tumor Profiling and Methylation-Based Machine-Learning Stratification of Retinoblastoma

Volz, S.; Montigel, S. H.; Ryl, T.; Afanasyeva, E.; Haag, D.; Reyes, P.; Mueller, J.; Puranachot, P.; Wedig, T.; Schwarz, N.; Mauermann, M.; Sadeghi Dehcheshmeh, I.; Sill, M.; Autry, R. J.; Sahm, F.; Biewald, E.; Ting, S.; Busch, M.; Jabbarli, L.; Kiefer, T.; Bechrakis, N.; Pfister, S. M.; Pajtler, K. W.; Ketteler, P.; Maass, K. K.

2026-07-13 oncology 10.64898/2026.07.09.26357661 medRxiv
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Primary tumor biopsy in retinoblastoma carries an unacceptable risk of extraocular dissemination. As a result, children treated with eye-sparing approaches currently lack access to tumor-derived genomic information at diagnosis, limiting accurate risk stratification, preventing subtype-guided therapy, and obscuring insight into tumor evolution during conservative treatment. Aqueous humor (AH) liquid biopsy has emerged as a promising window into circulating tumor DNA (ctDNA) from eyes managed conservatively, yet its ability to comprehensively capture the genomic and epigenomic landscape of retinoblastoma and to deliver clinically actionable molecular stratification has not been rigorously evaluated. We analyzed 18 matched AH-tumor pairs using genome-wide methylation profiling, copy-number analysis, and targeted sequencing. AH samples consistently contained high ctDNA fractions (median 0.65), enabling robust detection of single-nucleotide variants, canonical copy-number alterations, and methylation signatures defining established retinoblastoma subtypes. Importantly, promoter methylation patterns associated with RB1 inactivation and optic nerve invasion were confidently detected in AH, highlighting that liquid biopsy enables functional interrogation of disease-relevant genes and pathways. To enable biopsy-independent molecular classification, we developed a methylation-based machine learning classifier trained on combined AH and tumor datasets (n=114). The classifier demonstrated exceptional performance, with AUCs of 0.96-1.00 in cross-validation and 0.97-1.00 in independent validation across 63 additional retinoblastoma cases. Together, these findings position AH liquid biopsy as powerful, minimally invasive platform for comprehensive molecular profiling in retinoblastoma. This work establishes the first clinically viable non-invasive molecular stratification tool for the disease, enabling pretreatment risk assessment and paving the way for next-generation precision diagnostics in eye-preserving care.

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Histone Variant H2A.J Links Epigenetic Reprogramming to Mitochondrial-dependent Kidney Regeneration under Radiation Stress

Abd Al-razaq, M.; von der Lippe, J.; Freche, N.; Jung, D.; Jordan, M.; Auerbach, H.; Hecht, M.; Rübe, C.; Kramer, D.; Mann, C.; Rübe, C. E.

2026-07-08 molecular biology 10.64898/2026.06.18.733158 medRxiv
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The histone variant H2A.J is implicated in radiation-induced senescence by promoting the transcription of inflammatory genes. While H2A.J expression increases in renal tubular epithelial cells (TECs) following ionizing radiation (IR), its functional role remains poorly understood. To investigate this, constitutive H2A.J knock-out (KO) mice and wild-type (WT) controls were subjected to CT-guided IR (fractionated whole-body or localized kidney IR). Kidneys were analyzed at acute, intermediate, and chronic stages using immunofluorescence, histochemistry, automated image analysis, and electron microscopy. In WT TECs, IR induced rapid chromatin incorporation and C-terminal serine phosphorylation of H2A.J. Conversely, KO kidneys exhibited significantly more severe histopathological damage, including tubular dilation, flattened epithelium, associated with increased apoptosis, and premature senescence, characterized by persistent DNA damage with lamin B1 loss. Notably, KO TECs displayed disrupted mitochondrial networks and reduced brush borders even at baseline, which were further exacerbated by IR. Unlike WT controls, KO kidneys developed progressive tubular atrophy and incipient fibrosis, indicating a failure in regenerative capacity. Our findings suggest that H2A.J loss impairs tubular regeneration due to defective mitochondrial activation, resulting in insufficient energy supply for coordinated repair. Collectively, these results identify H2A.J as a critical stress-adaptive histone variant essential for the epigenetic regulation of tissue repair following radiation-induced damage. One Sentence SummaryIn irradiated kidney, the loss of histone variant H2A.J impairs the chromatin-mediated adaptation of mitochondrial function in tubular epithelial cells, thereby exacerbating cellular stress - characterized by increased induction of apoptosis and senescence - and ultimately leading to tubular atrophy. Translational RelevanceAcute and chronic kidney injury are frequent complications of genotoxic cancer therapies. Chemo- and radiotherapy induce DNA lesions that trigger cell death and senescence, often leading to irreversible renal damage. However, renal regeneration can occur through the dedifferentiation, proliferation, and redifferentiation of surviving tubular epithelial cells (TECs). This repair process is governed by epigenetic mechanisms that regulate the DNA damage response (DDR) and adapt gene expression programs. Following ionizing radiation (IR), epigenetic remodeling involves the incorporation of histone variants that modulate chromatin accessibility for stress-responsive transcription factors. We identify the histone variant H2A.J as a constitutive component of renal TECs, significantly upregulated after exposure to ionizing radiation (IR). Using H2A.J knock-out (KO) mice, we demonstrate that its absence disrupts acute damage responses and prevents coordinated repair, severely impairing regeneration. Mechanistically, H2A.J deficiency compromises mitochondrial function under postirradiation metabolic stress, driving the transition from acute injury to chronic kidney disease via persistent inflammation and maladaptive tubulointerstitial repair. Targeting these epigenetic drivers offers a promising strategy for regenerating damaged kidney tissue in oncology.

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Organised cancer screening among women who receive medically assisted reproduction treatments

Walker, A. R.; Odahl, S.; Venetis, C.; Jorm, L.; Hacker, N. F.; Chapman, M.; Anazodo, A. C.; Norman, R. J.; Stern, C.; Sansom-Daly, U. M.; Chambers, G. M.; Vajdic, C. M.

2026-07-07 epidemiology 10.64898/2026.07.05.26357336 medRxiv
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There are no published data on cancer screening by women using medically assisted reproduction (MAR). Such data would aid interpretation of the cancer incidence and risk profiles for this group. Using linked population-based Australian health registries and administrative datasets, we compared organised publicly funded cervical and breast screening episodes for women who received one of three types of MAR and matched women who did not between 1991 and 2016. We modelled the proportion of women screened in the three years before and after first MAR treatment, adjusting for age, remoteness, parity, socio-economic disadvantage, cancer history, and uptake of the other screening program. After adjustment, a greater proportion of women who received MAR than women who did not had cervical screening before MAR (77.3%-84.1% vs 57.5%-62.0%, depending on treatment) and after MAR (77.0%-78.5% vs 68.1%-68.3%). Contrastingly, breast screening estimates were 7.6%-9.6% vs 9.3%-10.5% before MAR and 11.0%-15.0% vs 12.8%-14.9% after MAR.

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MAGIC Composite Score Predicts Outcomes of Second-Line Therapy for Acute GVHD

Sebastian, T.; Weber, D.; Etra, A. M.; Vasova, I.; Ayuk, F.; Choe, H. K.; DeFilipp, Z.; Quagliarella, F.; Bedirian, K.; Diniz, M. A.; Aguayo-Hiraldo, P.; Bader, P.; Baez, J.; Chanswangphuwana, C.; Eng, G.; Francke, T.; Hexner, E. O.; Katsivelos, N.; Kitko, C. L.; Kraus, S.; Louloudis, I. E.; Morales, G.; Nakamura, R.; Olson, T. S.; Qayed, M.; Reddy, P.; Reshef, R.; Schechter, T.; Wang, T.; Wolf, M.; Young, R.; Zeiser, R.; Hogan, W. J.; Levine, J. E.; Ferrara, J. L. M.

2026-07-13 oncology 10.64898/2026.07.09.26357664 medRxiv
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Approximately 30% of patients with acute graft-versus-host disease (GVHD) develop steroid-refractory disease and have very poor outcomes. Ruxolitinib has become the standard of care for steroid-refractory acute GVHD, but it is unclear which patients derive benefit. The MAGIC Composite Score (MCS), an algorithm that combines clinical symptoms and biomarkers, has been validated to predict outcomes at the start of primary GVHD treatment. Here, we evaluated its performance at the initiation of second-line treatment in 278 patients. MCS stratified patients into three risk groups (MCS1-3), with the majority (88%) classified as intermediate or high risk. Increasing MCS score was associated with progressively higher 1-year non-relapse mortality (NRM) rates (16%, 41%, and 73%; p<0.001), lower 1-year survival (77%, 56%, and 24%; p<0.001), and lower complete response (CR) rates at day 28 (47%, 38%, and 20%, respectively; p<0.01). The area under the receiver operating characteristic curve (AUROC) for 1-year NRM was significantly higher with MCS compared to clinical symptoms alone (0.70 vs. 0.63; p=0.023). Among patients treated with ruxolitinib, higher MCS similarly predicted higher NRM and lower survival and CR rates. Patients classified as MCS2/3 had poor outcomes despite ruxolitinib, underscoring the need for novel therapies in this patient population. In conclusion the MCS is an accurate predictor of outcomes for patients who require second-line treatment and may be of use as an eligibility criterion for future clinical trials in this high-risk population.

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CCN3-derived peptide BLR-200 impairs YAP activation and attenuates bleomycin-induced skin fibrosis through blocking the generation of Sfrp2-positive fibroblasts

Nguyen, J.; Peidl, A.; Chitturi, P.; McClintock, S. D.; Knibbs, R.; Zestranjyan, K.; Abdi, B. A.; Denomy, C.; Bhandari, P.; Carter, D. E.; Petitjean, M.; Varga, J.; Khanna, D.; Stratton, R. J.; Aslam, M. N.; Varani, J.; Riser, B. L.; Leask, A.

2026-07-08 cell biology 10.64898/2026.07.07.734740 medRxiv
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An autocrine pro-adhesive/pro-contractile signaling loop, through the mechanosensitive transcriptional cofactor YAP, promotes fibrosis. The CCN family of matricellular proteins modify adhesive signaling. Of these, CCN3 is antifibrotic. We show that BLR-200, a CCN3-derived peptide, has anti-fibrotic properties in the bleomycin-induced model of scleroderma skin fibrosis. In vitro, BLR-200 delayed, but did not abolish, fibroblast adhesion to collagen and nuclear YAP localization. In vivo, BLR-200 prevented/treated bleomycin-induced skin fibrosis, and reduced bleomycin-induced expression of profibrotic genes including alpha-smooth muscle actin, CCN1 and CCN2. Lineage tracing and scRNA-seq analyses revealed that the myofibroblasts in this model were quantitatively derived from collagen-lineage Pi16+/Col15+ve fibroblasts. BLR-200 prevented myofibroblast differentiation in this model and trajectory of fibroblasts toward a Sfrp2-positive subset, a cell type associated with poor clinical outcome. BLR-200 impairs YAP activation in vitro and appearance of translationally-relevant fibroblast subtypes in vivo and is a novel anti-fibrotic agent for SSc skin fibrosis.

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Blood-based transcriptomic classification of lung cancer: a leakage-free nested cross-validation framework with LASSO

Bakim, S.; UrluOzalan, N.; Gulbahce Mutlu, E.; Demir, V.; Gulbahce, E.

2026-07-13 oncology 10.64898/2026.07.11.26357823 medRxiv
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Peripheral whole-blood gene expression profiling offers a minimally invasive route to lung cancer detection, but high-dimensional transcriptomic data are prone to optimistic bias when preprocessing and model selection are not properly separated from performance evaluation. We applied L1-penalised (LASSO) logistic regression to 303 peripheral whole-blood microarray profiles (123 lung cancer cases and 180 healthy controls; Gene Expression Omnibus accession GSE252168; Illumina HumanHT-12 v4) within a leakage-free nested cross-validation framework (5 outer and 3 inner folds), in which all data-dependent steps (imputation, univariate feature screening by ANOVA F-test with k = 500, and standardisation) were confined strictly to training partitions. Statistical significance was assessed by permutation testing (B = 100), and feature selection stability was quantified across outer folds. LASSO was compared with ridge logistic regression, linear support vector machines, and random forest under the same framework. The LASSO model identified a sparse 29-probe signature with a pooled out-of-fold area under the ROC curve (AUC) of 0.990 (nested estimate 0.989 +/- 0.015), accuracy 97.4%, sensitivity 94.3%, and specificity 99.4% at a 0.50 threshold; permutation testing confirmed significance (p = 0.0099). Six probes, including CDC42, U2AF1, and RPS15A, were selected in all five outer folds, forming a stable core, and all classifiers exceeded AUC 0.987, indicating a strong, algorithm-independent signal. A leakage-free nested cross-validation framework enables unbiased performance estimation and reproducible feature selection in blood-based lung cancer classification. The 29-probe panel is an internally validated candidate requiring prospective, multicentre external validation before clinical use.

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Correlation of OCT-Based Radiomic Signatures With Dose-Associated Radiation Response in Tumor Spheroids

Arndt, M. D.; Hansler, R.; Tirinato, L.; Tkachenko, A.; Seco, J.; Schepers, U.; Spadea, M. F.

2026-07-09 cancer biology 10.64898/2026.07.08.737210 medRxiv
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Background: Three-dimensional tumor spheroids are an established radiobiology model, but scalable, reproducible readouts of dose-dependent radiation response are lacking. We evaluated whether optical coherence tomography (OCT) radiomics can quantify dose-associated response in spheroids, and how it compares with conventional brightfield morphology. Methods: This in vitro, cross-sectional study used SAS oral squamous cell carcinoma spheroids seeded at two densities (5000 and 10000 cells), irradiated at 0 to 12 Gy, and imaged on days 1 to 11 post-irradiation. Each OCT acquisition yielded co-registered structural-intensity and speckle-variance volumes. Radiomic features (shape, first-order, texture) were extracted with Radiomics.jl, filtered for repeatability, correlation-pruned, and ensemble-ranked. Dose correlation was assessed by repeated 5-fold cross-validation across five regressors, comparing brightfield-only (BF), OCT-only, and combined OCT+BF feature sets with paired Wilcoxon tests. Results: OCT-only models consistently outperformed the BF baseline (median R2 0.77 to 0.85 versus 0.61 to 0.69; p<0.001 for all regressors). Adding brightfield to OCT gave no consistent benefit, reaching significance only for Random Forest (p=0.026, power 0.62). A compact shared feature subset combined brightfield area dynamics with OCT texture, shape, and speckle-variance descriptors, all showing low repeat-scan variability relative to cohort variability. Conclusions: OCT radiomics provides a sensitive, reproducible, label-free high-throughput readout of spheroid radiation dose response that outperforms the current brightfield-based approach, without requiring concurrent brightfield acquisition.

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Sensory neurons shape γδ T cell effector programs to control Psoriasiform Inflammation.

Inclan Rico, J.; Napuri, C.; Stephenson, A.; Rossi, H.; Femoe, U. M.; Musaigwa, F.; Hung, L.-Y.; Yu, H.; Luo, W.; Herbert, D.

2026-07-09 immunology 10.64898/2026.07.03.736363 medRxiv
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Psoriasis is a chronic autoimmune skin disorder marked by IL-17-producing {gamma}{delta} T cell ({gamma}{delta}T17) and pruritus, but immunoregulatory roles of itch-inducing neurons in this context remain unclear. This study addressed whether non-peptidergic (NP) afferents bearing the Mas-related G protein-coupled receptor D (MrgprD/NP1) and MrgprA3/NP2 subsets had differential effects on psoriasiform immunopathology. Data show human NP1 and NP2 neurons basally expressed an array of pattern recognition and cytokine receptor genes, and psoriatic human skin had a profound dysregulation of neuropeptides and their receptors. In mice, imiquimod (IMQ) application reduced the density of MrgprD+ skin afferents, whereas NP1 neuron ablation exacerbated IMQ-induced disease. Strikingly, NP1 activation using either optogenetics or {beta}-alanine before IMQ exposure significantly reduced epidermal thickness, psoriatic clinical score, and {gamma}{delta}T17 cell accumulation. In stark contrast, NP2 activation increased the numbers of {gamma}{delta}T17 cells that co-expressed amphiregulin (Areg) and exacerbated IMQ-driven skin pathology. Instead, pre-emptive NP1 stimulation shifted {gamma}{delta} T cell profiles away from being IL-17 and Areg dominant to IL-13+ {gamma}{delta} T cells expressing the transcription factor GATA3 accompanied by IL-10 secretion. Importantly, IL-10 signaling blockade reversed NP1-mediated suppression of IMQ-induced dermatitis. These data show that sensory neuron subsets can distinctly modulate inflammatory skin disease.

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Molecular residual disease detection by serial tumour-informed circulating tumour DNA analysis in resectable oesophageal & gastroesophageal junctional adenocarcinoma: a prospective UK multi-centre study

Coles, H. R.; Freeman, A.; Jacobson, D. H.; Devonshire, G.; Grehan, N.; Millington, C.; Nutzinger, B.; Harvey, A.; Saunders, J. H.; Gossage, J.; Ma, R.; Mason, L.; Parsons, S. L.; Askinyte, V.; Massia, S.; Fitzgerald, R. C.; Jones, C. M.

2026-07-09 oncology 10.64898/2026.07.06.26357371 medRxiv
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Background The value and optimal timing of circulating tumour DNA (ctDNA) analysis in locally advanced oesophageal adenocarcinoma (OAC) is uncertain. We hypothesised that perioperative detection would predict event-free (EFS) and overall (OS) survival, and that 3-6 months post-operative detection would predict recurrence. Methods In this prospective multi-centre cohort study, tumour-informed ctDNA assays were designed for 49 patients using whole-exome sequencing. Bloods were collected for ctDNA detection up to 8 days prior to surgery, and at 3-6 weeks and 3-6 months post-surgery, then correlated with clinicopathological characteristics, EFS and OS. Results Pre- and early post- surgery ctDNA positivity were associated with worse EFS (HRs 7.97 (95% confidence interval, CI 2.64-24.04), p<0.0001; 8.18 (95%CI 3.23-20.69), p<0.0001) and OS (HRs 7.82 (95%CI 2.22-27.54), p=0.00018; 13.69 (95%CI 4.52-41.49), p<0.0001). In pre-surgery positive patients, post-surgery ctDNA clearance associated with improved EFS and OS, and predicted better OS in those with a poor histopathological response to neoadjuvant treatment. 3-6 month ctDNA-positivity preceded standard-of-care recurrence detection by median 53.5 (interquartile range 39.3-200.0) days. Conclusions Perioperative ctDNA positivity associates with worse EFS and OS in OAC, identifying a subgroup with improved outcomes despite adverse pathological features. ctDNA testing at 3-6 months predicts recurrence earlier than standard-of-care surveillance.

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Gene Supplementation of MYO7A or activation of Myo7b for treatment of Usher syndrome 1B

Mittas, D. M.; Otify, D. Y.; Gavrilov, Z.; Heigl, T.; Suchomski, J.; Deltuvaite, P.; Hinrichsmeyer, K.; Mercey, O.; Kynast, F.; Motlik, J.; Ellederova, Z.; Ardan, T.; Klingl, A.; Grünert, J.; Mehlfeld, V.; Kolesnikova, A.; Nyshchuk, R.; Juhasova, J.; Juhas, S.; Drutovic, S.; Fischer, M. D.; Veith, M.; Stranak, Z.; Boon, N.; Wijnholds, J.; Wiest, A.; Kielkowski, P.; Gökce, G.; Guichard, P.; Hamel, V.; Ammer, H.; Michalakis, S.; Koch, S.; Biel, M.; Becirovic, E.

2026-07-10 molecular biology 10.64898/2026.07.02.736025 medRxiv
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Mutations in MYO7A result in the most severe subtype of Usher syndrome, the leading genetic cause of deafblindness. The large size of MYO7A requires dual adeno-associated virus (AAV) vectors for gene transfer or alternative methods to treat retinal defects. Here, we evaluated two treatment approaches: i) Supplementation of the human MYO7A gene via dual mRNA trans-splicing AAVs, and ii) CRISPR/Cas-mediated activation of the related murine Myo7b gene. Upon MYO7A supplementation, the transgenic MYO7A transcript and protein were expressed and correctly localized in retinal pigment epithelial (RPE) and photoreceptors of mice, pigs, and human retinal organoids. In RPE-and photoreceptor-specific Myo7a knockout mice, we could restore MYO7A expression and localization of melanosomes in RPE cells to wild-type levels. Myo7b activation led to partial restoration of melanosome localization, and the localization of MYO7B protein was largely comparable to MYO7A. These findings indicate that both approaches are in principle suitable for the therapy of Usher syndrome.

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Loss of CD109 Amplifies NF-κB Signaling and Inflammatory Reprogramming in Dermal Fibroblasts

Batal, A.; Pamnani, S.; Zhou, S.; Bou-Gharios, G.; Philip, A.

2026-07-10 cell biology 10.64898/2026.07.03.736423 medRxiv
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Fibroproliferative diseases such as systemic sclerosis are complex conditions characterized by chronic skin inflammation and progressive fibrosis, with fibroblast activation as a central feature. While Transforming Growth Factor Beta (TGF-{beta}) signaling is a well-established driver of fibrosis in SSc, inflammatory pathways such as Nuclear Factor Kappa B (NF-{kappa}B) also contribute substantially to disease morbidity. We previously identified CD109 as a TGF-{beta} co-receptor and negative regulator of fibrotic signaling; however, its role in inflammatory signaling remains unknown. Here, we investigate the function of CD109 in regulating inflammatory signaling in skin fibroblasts. We show that, CD109 co-localizes and associates with Toll-like receptors (TLR2, TLR4) and tumor necrosis factor receptors (TNFRI, TNFRII), and that loss of CD109 enhances TNF--induced NF-{kappa}B activation and reprograms cytokine production in human dermal fibroblasts. Furthermore, both global and fibroblast-specific CD109 knockout mice exhibit increased immune cell infiltration and skin inflammation. In parallel, single-cell transcriptomic analyses across a pan-disease fibroblast atlas show that CD109 expression is preferentially maintained in structural and homeostatic fibroblast subtypes, whereas immune-interacting fibroblast subsets consistently display decreased CD109 levels. Pathway-level analyses of fibroblast pseudobulk samples reveal altered activity of canonical inflammatory pathways in SSc compared to healthy skin. Together, these findings identify CD109 as a fibroblast-intrinsic negative regulator of inflammatory signaling and suggest a broader role for CD109 in modulating inflammatory responses in systemic sclerosis. O_FIG O_LINKSMALLFIG WIDTH=200 HEIGHT=102 SRC="FIGDIR/small/736423v1_ufig1.gif" ALT="Figure 1"> View larger version (53K): org.highwire.dtl.DTLVardef@be9e08org.highwire.dtl.DTLVardef@794173org.highwire.dtl.DTLVardef@b81eb5org.highwire.dtl.DTLVardef@1e811f5_HPS_FORMAT_FIGEXP M_FIG Graphical Abstract: CD109 Restrains Fibroblast-Driven Inflammation by Modulating NF-{kappa}B Signaling. Generated using FigureLabs.ai and edited using Adobe Photoshop. C_FIG

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A Single-cell Atlas of Juvenile Nasopharyngeal Angiofibroma Reveals VEGF-Driven Angiogenic Remodeling as a Therapeutic Vulnerability

Martini-Stoica, H.; Rupp, B. T.; Kunz, M.; Livraghi-Butrico, A.; Okuda, K.; O'Neal, W.; Randell, S.; Dang, H.; Murano, H.; Furusho, M.; Morton, L.; Askin, F.; Thorp, B. D.; Klatt-Cromwell, C.; Ebert, C. S.; Senior, B. A.; Vuncannon, J. R.; Kimple, A. J.; Byrd, K. M.

2026-07-09 otolaryngology 10.64898/2026.07.01.26356778 medRxiv
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Background: Juvenile nasopharyngeal angiofibroma (JNA) is a rare locally aggressive vascular sinonasal tumor that primarily affects adolescent males. Despite advances in endoscopic surgery and preoperative embolization, JNA can be associated with major operative bleeding risk and clinically meaningful recurrence, while non-surgical treatment options remain limited. Methods: To define the cellular programs underlying JNA vascularity, we performed single-cell RNA sequencing of JNA tumors (n=2), tumor-adjacent mucosa, and control sinonasal tissue. We analyzed cell composition, differential gene expression, pathway enrichment, and cell-cell communication, followed by Drug2cell-based mapping of transcriptional states to candidate therapeutic targets. Results: JNA contained an expanded fibrovascular compartment composed of endothelial cells, fibroblasts, pericytes, vascular smooth muscle cells, and neural crest-like cells. Neural crest-like cells were enriched in JNA but showed relatively limited transcriptional differences from tumor-adjacent tissue. By contrast, endothelial cells demonstrated the strongest disease-associated remodeling, with enrichment of angiogenesis, extracellular matrix organization, hypoxia response, and cell migration pathways. Endothelial cells also showed downregulation of adaptive immune signaling pathways, suggesting reduced immune engagement within the tumor microenvironment. Intercellular communication analyses revealed dense endothelial-stromal signaling across the JNA fibrovascular network. Drug2cell analysis nominated VEGF/VEGFR signaling as a candidate therapeutic vulnerability, with VEGFR-targeting agents predicted to act primarily on vascular and lymphatic endothelial populations. Conclusions: JNA is organized around an angiogenesis-dominant fibrovascular program driven by endothelial-centered signaling. These data support further investigation of VEGF/VEGFR-directed therapy as a potential adjunctive strategy for patients with recurrent, unresectable, or surgically high-risk JNA.

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Germline determinants of risk and molecular subtype in young-onset lung cancer

LoPiccolo, J.; Collins, R. L.; Fields, N.; Nakagawa, C.; Taraszka, K.; Wang, X.; Su, L.; Koeller, D. R.; Schwartz, A. L.; Pollaci, A. C.; Young, S. M.; Williamson, V. G.; Avila, J. A.; Voligny, E.; Nguyen, T.; Pangilinan, A. J.; Erwin, R. M.; Glitz, B. J.; Novello, S.; Oxford, G. R.; Chukwueke, U. N.; Brastianos, P. K.; Aizer, A. A.; Hatabu, M. N.; Florez, N.; Haigis, K.; Van Allen, E. M.; Nieva, J.; Garber, J.; Christiani, D. C.; Janne, P. A.; Gusev, A.

2026-07-10 oncology 10.64898/2026.06.30.26356693 medRxiv
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Young-onset lung cancer is enriched for never-smoking and oncogene-driven tumors, yet its inherited genetic basis remains poorly defined. We performed germline whole-genome sequencing in 251 young-onset lung cancer cases (median age 37), which we jointly analyzed with never-smoking cases (n=196; median age 68) and cancer-free controls (n=1,883). We identified enrichments of rare deleterious coding variants across 55 cancer-related gene sets, including EGFR/ERBB2 signaling and genes implicated by prior lung cancer GWAS. Exome-wide analyses of rare coding variants affirmed TP53 as a penetrant lung cancer predisposition gene (odds ratio [OR]=36.1, p=1.02x10-7) and discovered two novel exome-wide significant tumor subtype-dependent associations: IREB2 in cases with fusion-driven tumors (p=1.39x10-6) and SMAD6 in fusion-negative tumors (p=2.05x10-6). Structural variants contributed distinct risk, with enrichment in constrained, lung-expressed genes (OR=5.79, p=5.8x10-5) and very large germline deletions being markedly enriched in cases with fusion-driven tumors. Polygenic risk scores for lung cancer were inversely correlated with rare variant burden, consistent with additive risk from rare and common variants. Collectively, these findings delineate a complex germline architecture underlying susceptibility and molecular subtype in young-onset lung cancer.

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Identification of a Novel Alternatively Spliced CRYBA1 Transcript in Unilateral Childhood Cataract Associated with Persistent Fetal Vasculature

Sankaranarayanan, R.; Vasavada, A. R.; Agrawal, D.; Vasavada, S. A.; Vasavada, V. A.

2026-07-13 genetic and genomic medicine 10.64898/2026.07.08.26357271 medRxiv
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Purpose: To identify transcript-level variants in crystallin genes in paediatric patients with unilateral cataracts. Methods: Anterior capsulorhexis (n=12) from patients underwent surgical management of congenital unilateral cataracts was collected. Total RNA was isolated from lens epithelial cells, and complementary DNA (cDNA) was synthesized. Full-length RNA transcripts of 10 lens-specific crystallin genes were PCR-amplified and analysed via Sanger sequencing. Identified transcript variants were further validated using genomic DNA (gDNA) through Sanger sequencing. In addition, the full-length (~7,535 bp) CRYBA1 genomic region was sequenced using Oxford Nanopore Technology. Results: Aberrant low molecular weight (LMW) amplicons (~370 bp) of the CRYBA1 transcript were identified in three patients presented with unilateral cataract. Of 3 patients, 2 had persistent fetal vasculature (PFV) and 1 had pre-existing posterior capsular defect (PPCD). Sanger sequencing revealed a precise loss of exons 2 to 4 in the CRYBA1 RNA transcript. No coding, splice-site, or large deletion variants were detected in the genomic DNA of the patients or their parents. In silico analysis predicted two possible truncated proteins arising from these alternatively spliced transcripts: one comprising the first 11 amino acids of the N-terminal region with a loss of all Greek key motifs, and another comprising 90 amino acids encoded by exons 5 and 6, initiated from an alternative start codon in exon 5, and loss of Greek key motifs 1 & 2. Conclusion: The precise skipping of exons 2 to 4, consistent with canonical splicing signals (5-prime-GU...AG-3-prime), in the absence of genomic alterations, suggests the presence of alternatively spliced (AS) CRYBA1 transcripts in human lenses. This is the first report documenting AS-CRYBA1 transcripts in association with childhood cataracts with PFV and PPCD.

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'Truthsets' for clinical validation of large-scale functional assays: Practice recommendations from Cancer Variant Interpretation Group UK (CanVIG-UK)

Allen, S.; Rowlands, C. F.; Garrett, A.; Kuzbari, Z.; Durkie, M.; Burghel, G. J.; Robinson, R.; Callaway, A.; Field, J.; Frugtniet, B.; Palmer-Smith, S.; Grant, J.; Pagan, J.; Johnston, E.; McDevitt, T.; Hughes, L.; Yarram-Smith, L.; Logan, P.; Reed, L.; Snape, K.; McVeigh, T.; Hanson, H.; Villani, R.; Spurdle, A. B.; Starita, L. M.; Fowler, D. M.; Roth, F. P.; Radford, E.; Adams, D. J.; Findlay, G. M.; Turnbull, C.; Cancer Variant Interpretation Group UK (CanVIG-UK),

2026-07-13 genetic and genomic medicine 10.64898/2026.07.10.26357770 medRxiv
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Background Large-scale functional assays, including multiplex assays of variant effect, have substantial potential to resolve variants of uncertain significance (VUS), particularly for rare missense variants where clinical and population evidence are limited. The ClinGen assay-level clinical validation framework described by Brnich et al provided baseline guidance for the use of functional data for variant classification. However, clear consensus regarding construction of variant 'truthsets' by which to clinically validate functional data remains lacking. Methods CanVIG-UK developed consensus recommendations for truthset construction through an iterative national consultation process involving the CanVIG Steering Advisory Group (CStAG), wider CanVIG-UK membership, and engagement with international functional genomics experts. Consultation was based on previous analyses of 2,120 truthset constructions examining the impact of truthset composition on evidence point allocation within the ClinGen assay-level clinical validation framework. Results Across several consultations, CanVIG-UK established nine guiding principles and seven best-practice recommendations for assay-level clinical validation, using the assumed context of an assay for a cancer susceptibility gene where loss-of-function is the mechanism of pathogenicity. The principal recommendation stipulates, where assays are intended for use in interpretation of largely missense variants, the truthset used to validate should comprise only missense variants. Rather than mixtures of different variant types which may serve to over-estimate assay performance. Additional recommendations support option for relaxation of truthset stringency to improve power, augmentation of benign missense truthsets with systematically derived 'proxy-clinical' benign variants, independent clinical validation separate from assayist-defined validation, and careful evaluation of missense score distributions against that of protein-truncating and synonymous variants. Guidance is also provided for scenarios with limited pathogenic truthset availability and for assays reporting multiple deleterious zones or readouts. Conclusions The CanVIG-UK principles and recommendations for truthset construction upon the ClinGen assay-level clinical validation framework, while aiming to form a baseline for future discussion regarding other functional and disease contexts and helping to address the gap between publication of new data and routine clinical implementation.