BubR1 allelic effects drive phenotypic heterogeneity in mosaic-variegated aneuploidy progeria syndrome
Cynthia J. Sieben, … , Darren J. Baker, Jan M. van Deursen
Cynthia J. Sieben, … , Darren J. Baker, Jan M. van Deursen
Published November 18, 2019
Citation Information: J Clin Invest. 2020;130(1):171-188. https://doi.org/10.1172/JCI126863.
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BubR1 allelic effects drive phenotypic heterogeneity in mosaic-variegated aneuploidy progeria syndrome

Abstract

Mosaic-variegated aneuploidy (MVA) syndrome is a rare childhood disorder characterized by biallelic BUBR1, CEP57, or TRIP13 aberrations; increased chromosome missegregation; and a broad spectrum of clinical features, including various cancers, congenital defects, and progeroid pathologies. To investigate the mechanisms underlying this disorder and its phenotypic heterogeneity, we mimicked the BUBR1L1012P mutation in mice (BubR1L1002P) and combined it with 2 other MVA variants, BUBR1X753 and BUBR1H, generating a truncated protein and low amounts of wild-type protein, respectively. Whereas BubR1X753/L1002P and BubR1H/X753 mice died prematurely, BubR1H/L1002P mice were viable and exhibited many MVA features, including cancer predisposition and various progeroid phenotypes, such as short lifespan, dwarfism, lipodystrophy, sarcopenia, and low cardiac stress tolerance. Strikingly, although these mice had a reduction in total BUBR1 and spectrum of MVA phenotypes similar to that of BubR1H/H mice, several progeroid pathologies were attenuated in severity, which in skeletal muscle coincided with reduced senescence-associated secretory phenotype complexity. Additionally, mice carrying monoallelic BubR1 mutations were prone to select MVA-related pathologies later in life, with predisposition to sarcopenia correlating with mTORC1 hyperactivity. Together, these data demonstrate that BUBR1 allelic effects beyond protein level and aneuploidy contribute to disease heterogeneity in both MVA patients and heterozygous carriers of MVA mutations.

Authors

Cynthia J. Sieben, Karthik B. Jeganathan, Grace G. Nelson, Ines Sturmlechner, Cheng Zhang, Willemijn H. van Deursen, Bjorn Bakker, Floris Foijer, Hu Li, Darren J. Baker, Jan M. van Deursen

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Figure 5

Progeroid BubR1+/X753 mice exhibit aberrant cellular signaling.

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Progeroid BubR1+/X753 mice exhibit aberrant cellular signaling. (A) Venn...
(A) Venn diagrams of DEGs from RNA sequencing analyses of gastrocnemius muscle from 3-month-old mice of the indicated genotypes. ↑, upregulated genes; ↓, downregulated genes. n = 3 independent mice/genotype. (B) Functional enrichment analyses on the 336 BubR1+/X753 versus BubR1+/+ upregulated DEGs. Biological processes clustered by common function. Significantly enriched (FDR < 0.05, –log10 > 1.3) processes are shown. Bars represent maximum –log10(FDR) per functional group, and dots represent individual annotations for pathways under a given functional group. Numbers above bars represent the total number of pathways per group. (C) Western blot of gastrocnemius muscle from two 3-month-old mice of the indicated genotypes. PonS served as the loading control. (D) Western blot of gastrocnemius muscle from three 10-day-old mice of the indicated genotypes, probed for BUBR1. PonS served as the loading control. BUBR1 levels were quantified and are shown as in Figure 1B. See Methods for statistical analyses for RNA sequencing and functional enrichment analyses (A and B). Statistical significance was determined using 1-way ANOVA with the Holm-Šídák post hoc test (D). ***P < 0.001. NS, not significant.