| Abstrakt: |
Vitamin B12, otherwise known as cobalamin, is an essential water-soluble vitamin that is obtained from animal derived dietary sources. Mutations in the genes that encode proteins responsible for cobalamin uptake, transport, or processing cause inborn errors of cobalamin metabolism, a group of disorders characterized by accumulation of homocysteine and methylmalonic acid, neurodevelopmental defects, ocular dysfunction, anemia, and failure to thrive. Mild to moderate craniofacial phenotypes have been observed but these phenotypes are not completely penetrant and have not been consistently recognized in the literature. However, in the most recent decade, animal models of cblXand cblC, two cobalamin disorder complementation groups, have documented craniofacial phenotypes. These data indicate a function for cobalamin in facial development. In this review, we performed a literature review of all cobalamin complementation groups to identify which groups, and which human variants, are associated with dysmorphic features, microcephaly, or marfanoid phenotypes. We identified dysmorphic facial features in cblC, cblX, cblG, cblF, and cblJ, which are caused by mutations in MMACHC, HCFC1, MTR, LMBRD1, and ABCD4, respectively. Other complementation groups were associated primarily with microcephaly. Animal models (zebrafish and mouse) of cblCand cblXsupport these clinical phenotypes and have demonstrated neural crest cell deficits that include reduced expression of prdm1a, sox10, and sox9, key molecular markers of neural crest development. Characterization of a zebrafish mmachcgermline mutant also suggests atypical chondrocyte development. Collectively, these data demonstrate an essential role for cobalamin in facial development and warrant future mechanistic inquiries that dissect the cellular and molecular mechanisms underlying human facial phenotypes in cobalamin disorders. |
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