<P>Integrins are cell-surface adhesion receptors that bind to extracellular matrices (ECM) and mediate cell–ECM interactions. Some integrins are known to play critical roles in dental enamel formation. We recruited two Hispanic families w...
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https://www.riss.kr/link?id=A107553094
2014
-
SCOPUS,SCIE
학술저널
2157-2163(7쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
<P>Integrins are cell-surface adhesion receptors that bind to extracellular matrices (ECM) and mediate cell–ECM interactions. Some integrins are known to play critical roles in dental enamel formation. We recruited two Hispanic families w...
<P>Integrins are cell-surface adhesion receptors that bind to extracellular matrices (ECM) and mediate cell–ECM interactions. Some integrins are known to play critical roles in dental enamel formation. We recruited two Hispanic families with generalized hypoplastic amelogenesis imperfecta (AI). Analysis of whole-exome sequences identified three <I>integrin beta 6</I> (<I>ITGB6</I>) mutations responsible for their enamel malformations. The female proband of Family 1 was a compound heterozygote with an <I>ITGB6</I> transition mutation in Exon 4 (g.4545G > A c.427G > A p.Ala143Thr) and an <I>ITGB6</I> transversion mutation in Exon 6 (g.27415T > A c.825T > A p.His275Gln). The male proband of Family 2 was homozygous for an <I>ITGB6</I> transition mutation in Exon 11 (g.73664C > T c.1846C > T p.Arg616*) and hemizygous for a transition mutation in Exon 6 of <I>Nance–Horan Syndrome</I> (<I>NHS</I> Xp22.13; g.355444T > C c.1697T > C p.Met566Thr). These are the first disease-causing <I>ITGB6</I> mutations to be reported. Immunohistochemistry of mouse mandibular incisors localized ITGB6 to the distal membrane of differentiating ameloblasts and pre-ameloblasts, and then ITGB6 appeared to be internalized by secretory stage ameloblasts. ITGB6 expression was strongest in the maturation stage and its localization was associated with ameloblast modulation. Our findings demonstrate that early and late amelogenesis depend upon cell–matrix interactions. Our approach (from knockout mouse phenotype to human disease) demonstrates the power of mouse reverse genetics in mutational analysis of human genetic disorders and attests to the need for a careful dental phenotyping in large-scale knockout mouse projects.</P>