A genome wide association study to identify germline copy number variants associated with cancer cachexia: a preliminary analysis

Ashok Narasimhan, Mahalakshmi Kumaran, Ioannis Gioulbasanis, Richard J.E. Skipworth, Oliver F. Bathe, Stein Kaasa, Florian Strasser, Bruno Gagnon, Vickie Baracos, Sambasivarao Damaraju
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Abstract

Background

Cancer cachexia is characterized by severe loss of muscle and fat involving a complex interplay of host–tumour interactions. While much emphasis has been placed on understanding the molecular mechanisms associated with cachexia, understanding the heritable component of cachexia remains less explored. The current study aims to identify copy number variants (CNV) as genetic susceptibility determinants for weight loss in patients with cancer cachexia using genome wide association study (GWAS) approach.

Methods

A total of 174 age-matched patients with oesophagogastric or lung cancer were classified as weight losing (>10% weight loss) or weight stable participants (<2% weight loss). DNA was genotyped using Affymetrix SNP 6.0 arrays to profile CNVs. We tested CNVs with >5% frequency in the population for association with weight loss. Pathway analysis was performed using the genes embedded within CNVs. To understand if the CNVs in the present study are also expressed in skeletal muscle of patients with cachexia, we utilized two publicly available human gene expression datasets to infer the relevance of identified genes in the context of cachexia.

Results

Among the associated CNVs, 5414 CNVs had embedded protein coding genes. Of these, 1583 CNVs were present at >5% frequency. We combined multiple contiguous CNVs within the same genomic region and called them Copy Number Variable Region (CNVR). This led to identifying 896 non-redundant CNV/CNVRs, which encompassed 803 protein coding genes. Genes embedded within CNVs were enriched for several pathways implicated in cachexia and muscle wasting including JAK–STAT signalling, Oncostatin M signalling, Wnt signalling and PI3K-Akt signalling. This is the first proof of principle GWAS study to identify CNVs as genetic determinants for cancer cachexia. Further, we show that a subset of CNV/CNVR embedded genes identified in the current study are common with the previously published skeletal muscle gene expression datasets, indicating that expression of CNV/CNVR genes in muscle may have functional consequences in patients with cachexia. These genes include CPT1B, SPON1, LOXL1, NFAT5, RBFOX1, and PCSK6 to name a few.

Conclusions

This is the first proof of principle GWAS study to identify CNVs as genetic determinants for cancer cachexia. The data generated will aid in future replication studies in larger cohorts to account for genetic susceptibility to weight loss in patients with cancer cachexia.

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通过基因组全关联研究确定与癌症恶病质相关的种系拷贝数变异:初步分析
背景癌症恶病质的特点是肌肉和脂肪严重流失,其中涉及宿主与肿瘤之间复杂的相互作用。尽管人们非常重视了解与恶病质相关的分子机制,但对恶病质遗传因素的了解仍然较少。本研究旨在利用全基因组关联研究(GWAS)方法确定拷贝数变异(CNV)作为癌症恶病质患者体重减轻的遗传易感性决定因素。 方法 共有 174 名年龄匹配的食管胃癌或肺癌患者被分为体重减轻者(体重减轻 10%)和体重稳定者(体重减轻 2%)。使用 Affymetrix SNP 6.0 阵列对 DNA 进行基因分型,以确定 CNV。我们测试了人群中频率为 5%的 CNV 与体重减轻的关系。利用嵌入 CNV 的基因进行了通路分析。为了了解本研究中的 CNV 是否也在恶病质患者的骨骼肌中表达,我们利用两个公开的人类基因表达数据集来推断所发现的基因与恶病质的相关性。 结果 在相关的 CNV 中,有 5414 个 CNV 嵌入了蛋白质编码基因。其中,1583 个 CNV 的出现频率为 5%。我们将同一基因组区域内多个连续的 CNVs 合并,称其为拷贝数可变区(CNVR)。这样就确定了 896 个非冗余 CNV/CNVR,其中包括 803 个蛋白质编码基因。嵌入 CNVs 的基因富集于与恶病质和肌肉萎缩有关的几个通路,包括 JAK-STAT 信号、Oncostatin M 信号、Wnt 信号和 PI3K-Akt 信号。这是首个将 CNVs 鉴定为癌症恶病质遗传决定因素的 GWAS 原理验证研究。此外,我们还发现,本研究中发现的一部分 CNV/CNVR 嵌入基因与之前发表的骨骼肌基因表达数据集具有共通性,这表明 CNV/CNVR 基因在肌肉中的表达可能会对恶病质患者产生功能性影响。这些基因包括 CPT1B、SPON1、LOXL1、NFAT5、RBFOX1 和 PCSK6 等。 结论 这是首次将 CNVs 确定为癌症恶病质遗传决定因素的原理性 GWAS 研究。所产生的数据将有助于今后在更大的队列中进行重复研究,以解释癌症恶病质患者体重减轻的遗传易感性。
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Issue Information Altered skeletal muscle density: a matter of increased fat infiltration or reduced muscle mass? Uncorrected and subcutaneous fat-corrected echo intensities are similarly associated with magnetic resonance imaging per cent fat A genome wide association study to identify germline copy number variants associated with cancer cachexia: a preliminary analysis Combined orchiectomy and limb immobilization recapitulate early age-related changes to skeletal muscle in mice
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