Abstract
BLOC1S1 encodes a subunit shared by the BLOC-1 and BLOC-one-related complex (BORC) hetero-octameric complexes that regulate various endolysosomal processes. Here, we report the identification of seven distinct variants in BLOC1S1 in 11 individuals from seven independent families presenting with early psychomotor delay, hypotonia, spasticity, epileptic encephalopathy, optic atrophy, and leuko-axonopathy with hypomyelination. A subset of the affected individuals also have features of hypopigmentation and ocular albinism that are similar, although milder, than those of individuals with BLOC-1-related Hermansky-Pudlak syndrome. Functional analyses show that BLOC1S1 knockout (KO) impairs the anterograde transport of lysosomes and autophagy in both non-neuronal cells and induced pluripotent stem cell (iPSC)-derived neurons. Transfection experiments reveal that most BLOC1S1 variants exhibit reduced expression, decreased assembly with other BORC/BLOC-1 subunits, and/or impaired restoration of lysosome transport and autophagy in BLOC1S1-KO cells. Additionally, we show that KO of BLOC1S1 reduces pigmentation in a melanocytic cell line and that five of the BLOC1S1 variants partially or fully restore pigmentation. These findings provide genetic, clinical, and functional evidence that loss of function (LoF) of BLOC1S1 leads to more pronounced deficits in BORC than BLOC-1 function. We conclude that the bi-allelic BLOC1S1 variants characterized here primarily result in a neurological disorder with prominent leukodystrophy, similar to the recently reported condition caused by variants in the BORCS8 subunit of BORC. Together, these findings establish BORCopathies as a distinct disease entity.