A mutation in the nucleoporin-107 gene causes XX gonadal dysgenesis
Ariella Weinberg-Shukron, … , Offer Gerlitz, David Zangen
Ariella Weinberg-Shukron, … , Offer Gerlitz, David Zangen
Published October 20, 2015
Citation Information: J Clin Invest. 2015;125(11):4295-4304. https://doi.org/10.1172/JCI83553.
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Research Article Endocrinology Genetics

A mutation in the nucleoporin-107 gene causes XX gonadal dysgenesis

Abstract

Ovarian development and maintenance are poorly understood; however, diseases that affect these processes can offer insights into the underlying mechanisms. XX female gonadal dysgenesis (XX-GD) is a rare, genetically heterogeneous disorder that is characterized by underdeveloped, dysfunctional ovaries, with subsequent lack of spontaneous pubertal development, primary amenorrhea, uterine hypoplasia, and hypergonadotropic hypogonadism. Here, we report an extended consanguineous family of Palestinian origin, in which 4 females exhibited XX-GD. Using homozygosity mapping and whole-exome sequencing, we identified a recessive missense mutation in nucleoporin-107 (NUP107, c.1339G>A, p.D447N). This mutation segregated with the XX-GD phenotype and was not present in available databases or in 150 healthy ethnically matched controls. NUP107 is a component of the nuclear pore complex, and the NUP107-associated protein SEH1 is required for oogenesis in Drosophila. In Drosophila, Nup107 knockdown in somatic gonadal cells resulted in female sterility, whereas males were fully fertile. Transgenic rescue of Drosophila females bearing the Nup107D364N mutation, which corresponds to the human NUP107 (p.D447N), resulted in almost complete sterility, with a marked reduction in progeny, morphologically aberrant eggshells, and disintegrating egg chambers, indicating defective oogenesis. These results indicate a pivotal role for NUP107 in ovarian development and suggest that nucleoporin defects may play a role in milder and more common conditions such as premature ovarian failure.

Authors

Ariella Weinberg-Shukron, Paul Renbaum, Rachel Kalifa, Sharon Zeligson, Ziva Ben-Neriah, Amatzia Dreifuss, Amal Abu-Rayyan, Noa Maatuk, Nilly Fardian, Dina Rekler, Moien Kanaan, Abraham O. Samson, Ephrat Levy-Lahad, Offer Gerlitz, David Zangen

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Figure 2

Gonadal somatic cell knockdown of Nup107 in Drosophila.

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Gonadal somatic cell knockdown of Nup107 in Drosophila. (A) Reduced tota...
(A) Reduced total number of progeny in female Nup107-RNAi knockdown flies. Mean number of progeny in UAS-Nup107-RNAi/UAS-dicer2 flies compared with that in control UAS-Dicer2 female or male flies, expressed with the gonadal somatic–specific Tj-Gal4 driver. Nup107 knockdown in female flies results in 15-fold fewer progeny. Nup107 knockdown in male flies does not affect the number of progeny. The mean number of progeny in >10 flies in each of 4 independent experiments is indicated above the bars. **P = 0.007, 2-tailed, unpaired Student’s t test. (BE) Structural defects and apoptosis in ovarioles of Nup107-RNAi knockdown and control flies. (B and C) Tj-Gal4; UAS-dicer2 control ovarioles. Control egg chambers. DNA in the nurse cells appears normal (green), (B) overall egg chamber structure is intact (normal actin staining [red]), and (C) no apoptosis is observed (no caspase-3 staining [blue]). (D and E) Tj-Gal4; UAS-Nup107-RNAi/UAS-dicer2 ovarioles. Egg chambers in Nup107-RNAi knockdown flies, expressed using the somatic gonadal-specific tj-Gal4 driver. (D and E) DNA in the nurse cells appears condensed and punctate (arrowheads). (D) Disintegration of the egg chamber structure is observed around these condensed nuclei (no actin staining), and (E) apoptosis is apparent (caspase-3 staining). DNA was stained by Sytox (green), actin was stained by rhodamine phalloidin (red), and apoptosis was identified using anti-cleaved caspase-3 (casp-3) staining (blue). Scale bar: 100 μm.