Mutations Affecting the BHLHA9 DNA-binding Domain Cause MSSD, Mesoaxial Synostotic Syndactyly with Phalangeal Reduction, Malik-Percin Type

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2014 Dec 4

PMID 25466284

Citations 17

Authors

Sajid Malik

Ferda E Percin

Dorothea Bornholdt

Beate Albrecht

Antonio Percesepe

Manuela C Koch

Antonio Landi

Barbara Fritz

Rizwan Khan

Sara Mumtaz

Nurten A Akarsu

Karl-Heinz Grzeschik

Affiliations

Soon will be listed here.

Abstract

Mesoaxial synostotic syndactyly, Malik-Percin type (MSSD) (syndactyly type IX) is a rare autosomal-recessive nonsyndromic digit anomaly with only two affected families reported so far. We previously showed that the trait is genetically distinct from other syndactyly types, and through autozygosity mapping we had identified a locus on chromosome 17p13.3 for this unique limb malformation. Here, we extend the number of independent pedigrees from various geographic regions segregating MSSD to a total of six. We demonstrate that three neighboring missense mutations affecting the highly conserved DNA-binding region of the basic helix-loop-helix A9 transcription factor (BHLHA9) are associated with this phenotype. Recombinant BHLHA9 generated by transient gene expression is shown to be located in the cytoplasm and the cell nucleus. Transcription factors 3, 4, and 12, members of the E protein (class I) family of helix-loop-helix transcription factors, are highlighted in yeast two-hybrid analysis as potential dimerization partners for BHLHA9. In the presence of BHLHA9, the potential of these three proteins to activate expression of an E-box-regulated target gene is reduced considerably. BHLHA9 harboring one of the three substitutions detected in MSSD-affected individuals eliminates entirely the transcription activation by these class I bHLH proteins. We conclude that by dimerizing with other bHLH protein monomers, BHLHA9 could fine tune the expression of regulatory factors governing determination of central limb mesenchyme cells, a function made impossible by altering critical amino acids in the DNA binding domain. These findings identify BHLHA9 as an essential player in the regulatory network governing limb morphogenesis in humans.

Citing Articles

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Zhuang J, Li Y, Chen Y, Zhang H, Liu S, Hu M BMC Genomics. 2025; 26(1):113.

PMID: 39910461 PMC: 11800522. DOI: 10.1186/s12864-025-11297-3.

Sequence Variants in the Underlying Non-Syndromic Split-Hand/Foot Malformation.

Bilal M, Haack T, Buchert R, Peralta S, Ahmad I, Faisal Mol Syndromol. 2023; 14(6):469-476.

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Refining the Clinical Spectrum of the 17p13.3 Microduplication Syndrome: Case-Report of a Familial Small Microduplication.

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Need for revision of the ACMG/AMP guidelines for interpretation of X-linked variants.

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Developmental genomics of limb malformations: Allelic series in association with gene dosage effects contribute to the clinical variability.

Duan R, Hijazi H, Gulec E, Eker H, Costa S, Sahin Y HGG Adv. 2022; 3(4):100132.

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