Molecular Genetics & Genomic Medicine (Apr 2022)

Two nonsense GLI3 variants are associated with polydactyly and syndactyly in two families by affecting the sonic hedgehog signaling pathway

  • Xiaofang Shen,
  • Shun Zhang,
  • Xin Zhang,
  • Taifeng Zhou,
  • Yongjun Rui

DOI
https://doi.org/10.1002/mgg3.1895
Journal volume & issue
Vol. 10, no. 4
pp. n/a – n/a

Abstract

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Abstract Background Polydactyly and syndactyly are congenital limb deformities, segregating in an autosomal‐dominant fashion. The variants in the GLI3 gene are closely related to congenital limb malformations. However, the causes underlying polydactyly and syndactyly are not well understood. Methods We conducted a whole‐exome sequencing on two four‐generation Chinese families with polydactyly and syndactyly. Then c.2374C>T and c.1728C>A mutant plasmids were transfected to HEK293T cells and mice limb bud cells to explore the functional consequences of these variants. Western blot and real‐time quantitative PCR were used to analyze the expression of GLI3 and Shh. Results In these two families, the known GLI3 variant (NM_000168.6:c.2374C>T) and the novel GLI3 variant (NM_000168.6:c.1728C>A) contributed to polydactyly and syndactyly. Additionally, the GLI3 c.2374C>T mutant plasmid led to truncated GLI3 protein, and the GLI3 c.1728C>A mutant plasmid led to degraded GLI3 protein. Simultaneously, we demonstrated that the GLI3‐mutant plasmids led to decreased Shh expression in mice limb bud cells. Conclusion We demonstrated that the novel GLI3 variant (c.1728C>A) and known GLI3 variant (c.2374C>T) contributed to the malformations in two four‐generation pedigrees with polydactyly and syndactyly by affecting SHH signaling.

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