Recombinant Mouse H (+)/Cl (-) exchange transporter 7 (Clcn7), partial

1. a mouse with a different osteopetrosis-causing mutation (Clcn7(F318L)), is defined. PMID: 28942122
2. ClC-7 may affect tooth development by directly targeting tooth cells, and regulate tooth eruption through DFC mediated osteoclast pathway. PMID: 26829236
3. ClC-7 is essential for osteoclasts to resorb craniofacial bones to enable tooth eruption and root development. PMID: 26346547
4. ClC-7 deficiency impacts the development of the dentition and calvaria, but does not significantly disrupt amelogenesis. PMID: 25663454
5. ClC-7 does not appear to be crucially involved in gastric acid secretion, which explains the absence of an osteopetrorickets phenotype in CLCN7-related osteopetrosis. PMID: 24103576
6. Findings in this knockout mouse model prove that osteopetrotic compression of the brain is not responsible for neuronal and retinal degeneration in CLCN7-deficient mice; rather, they suggest that neurotoxicity is most likely due to lysosomal dysfunction. PMID: 20448277
7. Degradation of Alzheimer's amyloid fibrils by microglia requires delivery of chloride channel 7 to lysosomes. [ClC7] PMID: 21441306
8. Chloride channel 7 (Clcn7) deficient mice bear a close resemblance to the progressive neuropathologic phenotype of neuronal ceroid lipofuscinosis. PMID: 21107136
9. study of mice with a point mutation converting ClC-7 into an uncoupled (unc) Cl-conductor; findings show only some roles of ClC-7 Cl-/H+ exchange can be taken over by a Cl- conductance PMID: 20430974
10. Supports role of osteoclasts in tooth eruption, root development; suggest disordered homeostasis of odontogenic precursors is reason for odontoma-like growths. Genetic mapping narrowed location to genetic interval of 3.2 cM on mouse chromosome 17. PMID: 20121924
11. These experiments demonstrate that lysosomal pathology is a cell-autonomous consequence of ClC-7 disruption and that ClC-7 is important for lysosomal protein degradation. PMID: 19661288
12. ClC-7 knockout mice display neurodegeneration and severe lysosomal storage disease despite unchanged lysosomal pH in cultured neurons. PMID: 15706348
13. both ClC-7 and Ostm1 proteins co-localize in late endosomes and lysosomes of various tissues, as well as in the ruffled border of bone-resorbing osteoclasts PMID: 16525474
14. microphthalmia transcription factor regulates Clcn7 and Ostm1 expression in osteoclasts PMID: 17105730
15. bone formation and bone resorption are no longer balanced in ClC-7(-/-) mice PMID: 18958510

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KEGG: mmu:26373

STRING: 10090.ENSMUSP00000035964

UniGene: Mm.270587