Golgins support extracellular matrix secretion by collectively maintaining the Golgi structure-function relationship

The secretion of extracellular matrix (ECM) proteins is vital to the maintenance of tissue health. One major control point of this process is the Golgi apparatus, whose dysfunction causes numerous connective tissue disorders. Golgi function is tightly linked to its structure, which is maintained by the cytoskeleton and Golgi organising proteins. We sought to investigate the role of two of these organising proteins, the golgins GMAP210 and Golgin-160, in ECM secretion. We found that loss of either protein had distinct impacts on Golgi organisation. GMAP210 loss caused cisternal fragmentation and dilation, alongside the accumulation of tubulovesicular structures. Meanwhile, Golgin-160 knockout lead to Golgi fragmentation and vesicle build-up. Nonetheless, loss of each protein had a similar impact on ECM secretion and glycosaminoglycan synthesis. We therefore propose that golgins are collectively required to create the correct physical-chemical space to support efficient ECM protein secretion and modification. This is the first time that Golgin-160 has been shown to be required for ECM secretion. SummaryIn this study, Thompson et al demonstrate that two cis-Golgi golgins, GMAP210 and Golgin-160, have distinct, non-redundant roles in maintaining Golgi organisation and that both are required to support the efficient secretion, assembly, and modification of extracellular matrix proteins.