A Knock-In Igfn1iCre transgenic mouse line provides partial developmental access to type-7 bipolar cells

1.Functional neuronal circuits in the vertebrate retina emerge through coordinated developmental events, yet the timeline by which bipolar cells acquire visual feature selectivity remains unclear. A major barrier is the limited genetic access to bipolar subtypes during early postnatal stages. Recent comprehensive transcriptomic study points to Igfn1 as a molecular marker for type-7 bipolar cells (BC 7), a subtype that exhibits direction-selective glutamate releases in adult. Here, we generated an Igfn1iCre knock-in mouse line and characterized Igfn1-positive cell morphology from postnatal day 4(P4) to adult using Cre-dependent tdTomato reporter mice. We found Igfn1-positive cells in the inner retina by P12-P15, predominantly labelling bipolar cells and some amacrine populations. At P15, about 71% of labelled bipolar cells stratified their axons in the S4 sublamina of the inner plexiform layer, consistent with BC 7 morphology. In adult retina, the widespread Igfn1-labelling appears slightly dominated in amacrine cells. To validate these observations, we analysed Igfn1 expression in the Mouse Retina Cell Atlas and confirmed strong Igfn1 enrichment in BC 7 and expression in additional retinal cell types, mirroring experimental results. Overall, these results reveal Igfn1iCre as a potential developmental tool for BC 7 access in the retina.