DNA Methylation Status of Regulatory Regions of Apoptosis-Associated Genes in Dystropy «Huntington's Disease-Non-Small Cell Lung Cancer».

IF 3.5 Q3 GENETICS & HEREDITY

Epigenomes Pub Date : 2025-08-07 DOI:10.3390/epigenomes9030028

Nadezhda P Babushkina, Elena Yu Bragina, Densema E Gomboeva, Iuliia A Koroleva, Sergey N Illarioshkin, Sergey A Klyushnikov, Nataliya Yu Abramycheva, Maria A Nikitina, Valentina M Alifirova, Nikolai V Litviakov, Marina K Ibragimova, Matvey M Tsyganov, Irina A Tsydenova, Aleksei A Zarubin, Irina A Goncharova, Maria V Golubenko, Ramil R Salakhov, Aleksei A Sleptcov, Aksana N Kucher, Maria S Nazarenko, Valery P Puzyrev

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Abstract

Background. Studies of comorbid (syntropic) and inversely comorbid (rarely occurring together, i.e., dystropic) diseases have focused on the search for molecular causes of this phenomenon. Materials. We investigated DNA methylation levels in regulatory regions of 23 apoptosis-associated genes as candidate loci associated with the "cancer-neurodegeneration" dystropy in patients with Huntington's disease (HD) and patients with non-small cell lung cancer (LC). Results. Statistically significant differences in methylation levels between the HD and LC groups were found for 41 CpG sites in 16 genes. The results show that five genes (SETDB1, TWIST1, HDAC1, SP1, and GRIA2) are probably involved in the phenomenon of inverse comorbidity of these diseases. For these genes, the methylation levels of the studied CpG sites were altered in opposite directions in the two groups of patients, compared to the control group. Conclusions. For the SP1 gene, the above hypothesis is supported by our analysis of open-access data on gene expression in patients with the aforementioned diagnoses and fits a probable mechanism of the "HD-LC" dystropy.

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营养不良«亨廷顿病-非小细胞肺癌»中凋亡相关基因调控区域的DNA甲基化状态。

背景。对共病（共向性）和反共病（很少同时发生，即营养不良）疾病的研究侧重于寻找这种现象的分子原因。材料。我们研究了在亨廷顿舞蹈病（HD）和非小细胞肺癌（LC）患者中作为“癌症-神经变性”营养不良相关候选基因座的23个凋亡相关基因调控区域的DNA甲基化水平。结果。HD组和LC组在16个基因的41个CpG位点的甲基化水平上存在统计学差异。结果表明，SETDB1、TWIST1、HDAC1、SP1和GRIA2这5个基因可能参与了这些疾病的逆共病现象。对于这些基因，与对照组相比，两组患者中所研究的CpG位点的甲基化水平发生了相反方向的改变。结论。对于SP1基因，我们对上述诊断患者基因表达的公开数据分析支持上述假设，并符合“HD-LC”营养不良的可能机制。

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