Hypomorphism in human NSMCE2 linked to primordial dwarfism and insulin resistance
Felicity Payne, … , Mark O’Driscoll, Robert Semple
Felicity Payne, … , Mark O’Driscoll, Robert Semple
Published August 8, 2014
Citation Information: J Clin Invest. 2014;124(9):4028-4038. https://doi.org/10.1172/JCI73264.
View: Text | PDF
Research Article Endocrinology

Hypomorphism in human NSMCE2 linked to primordial dwarfism and insulin resistance

Abstract

Structural maintenance of chromosomes (SMC) complexes are essential for maintaining chromatin structure and regulating gene expression. Two the three known SMC complexes, cohesin and condensin, are important for sister chromatid cohesion and condensation, respectively; however, the function of the third complex, SMC5–6, which includes the E3 SUMO-ligase NSMCE2 (also widely known as MMS21) is less clear. Here, we characterized 2 patients with primordial dwarfism, extreme insulin resistance, and gonadal failure and identified compound heterozygous frameshift mutations in NSMCE2. Both mutations reduced NSMCE2 expression in patient cells. Primary cells from one patient showed increased micronucleus and nucleoplasmic bridge formation, delayed recovery of DNA synthesis, and reduced formation of foci containing Bloom syndrome helicase (BLM) after hydroxyurea-induced replication fork stalling. These nuclear abnormalities in patient dermal fibroblast were restored by expression of WT NSMCE2, but not a mutant form lacking SUMO-ligase activity. Furthermore, in zebrafish, knockdown of the NSMCE2 ortholog produced dwarfism, which was ameliorated by reexpression of WT, but not SUMO-ligase–deficient NSMCE. Collectively, these findings support a role for NSMCE2 in recovery from DNA damage and raise the possibility that loss of its function produces dwarfism through reduced tolerance of replicative stress.

Authors

Felicity Payne, Rita Colnaghi, Nuno Rocha, Asha Seth, Julie Harris, Gillian Carpenter, William E. Bottomley, Eleanor Wheeler, Stephen Wong, Vladimir Saudek, David Savage, Stephen O’Rahilly, Jean-Claude Carel, Inês Barroso, Mark O’Driscoll, Robert Semple

×

Figure 3

HU-induced nuclear abnormalities in primary fibroblast cells are rescued by expression of WT but not SUMO LD NSMCE2/MMS21.

Options: View larger image (or click on image) Download as PowerPoint
HU-induced nuclear abnormalities in primary fibroblast cells are rescued...
Typical micrographs of binucleated dermal fibroblasts showing (A and B) MN or (C) NPB. Scale bars: 5 μm. (D) Increased frequency of MN or (E) NPB in Cyt-B–treated dermal fibroblasts from P1 relative to age-matched healthy controls (WT) following a 4-hour block in 1 mM HU. (F) DOX-induced expression of WT or SUMO LD NSMCE2/MMS21 in P1 or control dermal fibroblasts (WT fibroblasts, 2 samples shown) analyzed by immunoblotting with antibodies specific to human NSMCE2/MMS21 (WB: α-NSMCE2). Asterisk indicates a crossreactive band that serves as an internal loading control. (G and H) DOX-induced ectopic expression of WT NSMCE2/MMS21 reduces frequencies of MN (G) and NPB (H) to levels seen in control cells. In contrast, DOX-induced ectopic expression of NSMCE2/MMS21 (LD) significantly increases levels of both MN (G) and NPB (H). Frequencies of MN per 100 or NPB per 1,000 binucleated cells are shown for each experimental condition, as indicated. All bar graphs represent mean ± SEM (n = 4). *P < 0.05; **P < 0.01; ***P < 0.001 (unpaired 1-tailed t test).