Mucolipidosis type IV (MLIV) is an autosomal recessive disorder characterized by acute psychomotor delays, achlorydria, and visual abnormalities including retinal degeneration, corneal clouding, optic atrophy, and strabismus. Lysosomal inclusions are found in most tissues in MLIV patients. The composition of the storage material is heterogeneous and includes lipids and mucopolysaccharides forming characteristic multiconcentric lamellae, as well as soluble, granulated proteins. MLIV is caused by mutations in mucolipin-1 (MCOLN1, also known as TRPML1), an endo-lysosomal cation channel belonging to the transient receptor potential (TRP) superfamily of ion channels. Whole cell patch clamp, as well as recording of native endolysosomal membranes, suggest that MCOLN1 functions as an inwardly (from lumen to cytoplasm) rectifying channel permeable to Ca2+, Na+, K+ and Fe2+/ Mn2+ whose activity is potentiated by low pH. We and others have proposed that the primary role of MCOLN1 in cells is to mediate calcium efflux from late endosomes and lysosomes. Localized calcium release from such acidic stores is required for fusion between endocytic vesicles and to maintain organelle homeostasis. In fact, we found that fusion of autophagosomes with lysosomes is impaired in MCOLN1-deficient cells, thus leading to accumulation of protein aggregates and damaged organelles. Our work contributed to the current view that defective autophagy plays an important role in the disease pathogenesis of many LSDs. To gain insight into the molecular mechanisms that regulate MCOLN1 activity we searched for proteins that bind MCOLN1 though pull-down assays and split-ubiquitin yeast-two hybrid screening. These experiments allowed the identification of the penta-EF-hand protein ALG-2 and the LAPTM family of lysosomal transporters as novel interactors of MCOLN1. In collaboration with the group of Andrea Ballabio, we have described that the expression of MCOLN1 is regulated by TFEB, a transcription factor that promotes transcription of autophagic and lysosomal genes. Over-expression of TFEB leads to MCOLN1-mediated exocytosis of lysosomes and results in clearance of abnormal lysosomes in several LSDs, further confirming the role of MCOLN1 in organelle fusion. More recently we showed that the expression of MCOLN1 is also significantly upregulated by TFE3. To better understand the pathology of this disease, we aimed to generate a MLIV disease model in zebrafish. Two putative zebrafish MCOLN1 co-orthologs have been identified, mcoln1.1 and mcoln1.2. By using specific Zinc Finger Nucleases (ZFN), we successfully created two independent mcoln1.1 knockout lines. Initial characterization of mcoln1.1 homozygous null embryos revealed noticeable cell death in the eye. Cell death was confirmed as cell apoptosis by TUNEL staining in both mcoln1.1 knockout lines. When mcoln1.1-/- fish embryos were injected with mcoln1.2 morpholino, the observed phenotype become even more apparent and increased apotosis was detected in the whole body of the mcoln1 lost embryos, thus suggesting some level of redundancy between mcoln1.1 and mcoln1.2. To further confirm these observations we are currently using the CRISPR-Cas9 system to generate of mcoln1.2 animals. Overall, our results indicate a novel and unexpected role of mcoln1 during early embryonic development. These and other important questions can be addressed by our experimental design, thus providing unparalleled insight in to the molecular function of MCOLN1, improving our understanding of MLIV, and opening new and exciting venues for the development of a treatment for the disease.
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