Klinefelter syndrome comorbidities linked to increased X chromosome gene dosage and altered protein interactome activity

Kirstine Belling, Francesco Russo, Anders B. Jensen, Marlene D Dalgaard, David Westergaard, Ewa Rajpert-De Meyts, Niels E. Skakkebæk, Anders Juul, Søren Brunak

35 Citations (Scopus)
75 Downloads (Pure)

Abstract

Klinefelter syndrome (KS) (47,XXY) is the most common male sex chromosome aneuploidy. Diagnosis and clinical supervision remain a challenge due to varying phenotypic presentation and insufficient characterization of the syndrome. Here we combine health data-driven epidemiology and molecular level systems biology to improve the understanding of KS and the molecular interplay influencing its comorbidities. In total, 78 overrepresented KS comorbidities were identified using in- and out-patient registry data from the entire Danish population covering 6.8 million individuals. The comorbidities extracted included both clinically well-known (e.g. infertility and osteoporosis) and still less established KS comorbidities (e.g. pituitary gland hypofunction and dental caries). Several systems biology approaches were applied to identify key molecular players underlying KS comorbidities: Identification of co-expressed modules as well as central hubs and gene dosage perturbed protein complexes in a KS comorbidity network build from known disease proteins and their protein–protein interactions. The systems biology approaches together pointed to novel aspects of KS disease phenotypes including perturbed Jak-STAT pathway, dysregulated genes important for disturbed immune system (IL4), energy balance (POMC and LEP) and erythropoietin signalling in KS. We present an extended epidemiological study that links KS comorbidities to the molecular level and identify potential causal players in the disease biology underlying the identified comorbidities.
Original languageEnglish
JournalHuman Molecular Genetics
Volume26
Issue number7
Pages (from-to)1219-1229
Number of pages11
ISSN0964-6906
DOIs
Publication statusPublished - 1 Apr 2017

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