Rescue of a peroxisome proliferator activated receptor gamma gene network in muscle after growth of human breast tumour xenografts

David A. Stanton, Hannah E. Wilson, Matthew G. Chapa, J. Link, Kristin Lupinacci, W. Geldenhuys, E. Pistilli
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Abstract

Fatigue is common in patents with breast cancer (BC), and can occur in patients with early stage disease and in the absence of muscle wasting (i.e. cachexia). We have reported transcriptional and proteomic alterations in muscles from BC patients, which are associated with fatigue. Mice implanted with human BC xenografts recapitulate the muscle molecular composition changes seen in patients, coupled with a greater rate of contraction‐induced fatigue. Multiple bioinformatics platforms in both human and mouse muscles have identified peroxisome proliferator activated receptor gamma (PPARG) as central to this phenotype, with several PPARG target genes downregulated in muscle in response to tumour growth. The current study tested the hypothesis that the PPARG agonist pioglitazone (pio), a commonly prescribed diabetes drug, would rescue the transcriptional alterations observed in muscles of tumour‐bearing mice.
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人乳腺肿瘤异种移植物生长后肌肉中过氧化物酶体增殖物激活受体γ基因网络的拯救
疲劳在患有癌症(BC)的患者中很常见,并且可能发生在早期疾病和没有肌肉萎缩(即恶病质)的患者身上。我们已经报道了BC患者肌肉的转录和蛋白质组学改变,这与疲劳有关。植入人类BC异种移植物的小鼠重现了患者肌肉分子组成的变化,同时出现了更高的收缩诱导疲劳率。人类和小鼠肌肉中的多个生物信息学平台已确定过氧化物酶体增殖物激活受体γ(PPARG)是该表型的核心,肌肉中的几个PPARG靶基因因肿瘤生长而下调。目前的研究验证了PPARG激动剂吡格列酮(pio)(一种常见的糖尿病处方药)可以挽救在荷瘤小鼠肌肉中观察到的转录改变的假设。
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