与乳腺癌女性治疗前癌因性疲乏相关的氧化应激和 DNA 修复基因的遗传变异性。

Genetic variability of oxidative stress and DNA repair genes associated with pre-treatment cancer-related fatigue in women with breast cancer.

机构信息

Department of Health Promotion & Development, University of Pittsburgh School of Nursing, Pittsburgh, PA, USA.

Department of Health, and Community Systems, University of Pittsburgh School of Nursing, Pittsburgh, PA, USA.

出版信息

Support Care Cancer. 2023 May 22;31(6):345. doi: 10.1007/s00520-023-07816-1.

DOI:10.1007/s00520-023-07816-1

PMID:37212918

Abstract

PURPOSE

Investigate potential relationships between pre-treatment cancer-related fatigue (CRF) in women with early-stage breast cancer and variation in genes involved with oxidative stress and DNA repair.

METHODS

Investigated 39 functional and tagging single nucleotide polymorphisms (SNPs) in genes involved in oxidative stress (CAT, GPX1, SEPP1, SOD1, and SOD2) and DNA repair (ERCC2, ERCC3, ERCC5, and PARP1) in a sample (N = 219) that included n = 138 postmenopausal women diagnosed with early-stage breast cancer before initiation of therapy and n = 81 age- and education-matched healthy controls. Using the Profile of Mood States Fatigue/Inertia Subscale, fatigue occurrence and severity were evaluated in both groups. Regression analysis was used to independently identify significant SNPs for three outcomes: 1) any fatigue versus no fatigue, 2) clinically meaningful versus non-clinically meaningful fatigue, and 3) fatigue severity. Using a weighted multi-SNP method, genetic risk scores (GRS) were calculated for each participant, and GRS models were constructed for each outcome. Models were adjusted for age, pain, and symptoms of depression and anxiety.

RESULTS

SEPP1rs3877899, ERCC2rs238406, ERCC2rs238416, ERCC2rs3916874, and ERCC3rs2134794 were associated with fatigue occurrence and had a significant GRS model (OR = 1.317, 95%CI [1.067, 1.675], P ≤ 0.05). One SNP, SOD2rs5746136, was significant for clinically meaningful fatigue; therefore, a GRS model could not be constructed. ERCC3rs4150407, ERCC3rs4150477, and ERCC3rs2134794 were associated with fatigue severity with a significant GRS model (b = 1.010, 95%CI [1.647, 4.577], R = 6.9%, P ≤ 0.01).

CONCLUSIONS

These results may contribute to identifying patients who are at risk of developing CRF. Oxidative stress and DNA repair biological pathways may be involved with CRF.

摘要

目的

探讨早期乳腺癌女性治疗前与癌症相关的疲劳（CRF）与氧化应激和 DNA 修复相关基因变异之间的潜在关系。

方法

在包括 n=138 例接受治疗前诊断为早期乳腺癌的绝经后妇女和 n=81 例年龄和教育程度匹配的健康对照者的样本中，研究了与氧化应激（CAT、GPX1、SEPP1、SOD1 和 SOD2）和 DNA 修复（ERCC2、ERCC3、ERCC5 和 PARP1）相关的 39 个功能和标记单核苷酸多态性（SNP）。使用状态特质焦虑问卷（STAI）中的疲劳/惰性亚量表评估两组的疲劳发生和严重程度。使用回归分析独立识别三个结果的显著 SNP：1）任何疲劳与无疲劳，2）有临床意义的疲劳与无临床意义的疲劳，以及 3）疲劳严重程度。使用加权多 SNP 方法为每个参与者计算遗传风险评分（GRS），并为每个结果构建 GRS 模型。模型调整了年龄、疼痛和抑郁及焦虑症状。

结果

SEPP1rs3877899、ERCC2rs238406、ERCC2rs238416、ERCC2rs3916874 和 ERCC3rs2134794 与疲劳发生相关，并且具有显著的 GRS 模型（OR=1.317，95%CI [1.067, 1.675]，P≤0.05）。一个 SNP，SOD2rs5746136，与有临床意义的疲劳有关，因此无法构建 GRS 模型。ERCC3rs4150407、ERCC3rs4150477 和 ERCC3rs2134794 与疲劳严重程度相关，且 GRS 模型具有显著意义（b=1.010，95%CI [1.647, 4.577]，R=6.9%，P≤0.01）。

结论

这些结果可能有助于确定有发展 CRF 风险的患者。氧化应激和 DNA 修复生物途径可能与 CRF 有关。

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与乳腺癌女性治疗前癌因性疲乏相关的氧化应激和 DNA 修复基因的遗传变异性。

Genetic variability of oxidative stress and DNA repair genes associated with pre-treatment cancer-related fatigue in women with breast cancer.

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RESULTS

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