Mucolipidosis type IV (ML IV, ganglioside sialidase deficiency, or ML4) is an autosomal recessive lysosomal storage disorder. Individuals with the disorder have many symptoms including delayed psychomotor development and various ocular aberrations. The disorder is caused by mutations in the MCOLN1 gene, which encodes a non-selective cation channel, mucolipin1. These mutations disrupt cellular functions and lead to a neurodevelopmental disorder through an unknown mechanism. Researchers dispute the physiological role of the protein product and which ion it transports. Mucolipidosis type IV (ML IV, ganglioside sialidase deficiency, or ML4) is an autosomal recessive lysosomal storage disorder. Individuals with the disorder have many symptoms including delayed psychomotor development and various ocular aberrations. The disorder is caused by mutations in the MCOLN1 gene, which encodes a non-selective cation channel, mucolipin1. These mutations disrupt cellular functions and lead to a neurodevelopmental disorder through an unknown mechanism. Researchers dispute the physiological role of the protein product and which ion it transports. Most patients with ML IV show psychomotor retardation (i.e., delayed development of movement and coordination), corneal opacity, retinal degeneration and other ophthalmological abnormalities. Other symptoms include agenesis of the corpus callosum, iron deficiency resulting from an absence of acid secretion in the stomach, achlorhydria. Achlorhydria in these patients results in an increase in blood gastrin levels. These symptoms typically manifest early in life (within the first year). After disease onset there occurs a period of stability, typically lasting two to three decades during which very little disease progression occurs. Mucolipin1 is thought to be localized in endosomes. An important property of mucolipin1 is that decreasing pH (acidification) results in deactivation of the protein, likely through an assembly defect. There are at least 29 known mutations in MCOLN1, located throughout the gene. Many of the known mutations result in no expression of mucolipin1. Milder mutations, such as ΔF408 and V446L, produce a dysfunctioning form of the cation channel. Mutations that alter only the C-terminal of the protein also result in a mild phenotype of the disorder, usually sparing the brain. ML IV causes affected cells to accumulate auto-fluorescent vacuoles considered to be aberrant lysosomes. Several evidences exist for a defect in both exocytosis and endocytosis. There are conflicting indications of abnormal lysosomal pH in MLIV. It is not yet clear why these abnormalities will cause incomplete development of the brain, achlorhydria, and failure in the maintenance of retinal tissue.