姜黄素干预恶性肿瘤表观遗传学研究进展

姜黄素已被证明是一种抗肿瘤药物,它除了对目的蛋白的直接调控外,也可以通过改变表观遗传学作用于目的基因。本文着重对姜黄素所致的DNA去甲基化、组蛋白去乙酰化和miRNA的调节现象以及这些调节对肿瘤的生长影响进行阐述。     

肿瘤表观遗传学研究进展

对肿瘤研究的不断深入使人们认识到几乎所有人类肿瘤都是由表观遗传学异常与基因改变共同引起并促进其演变的.表观遗传学改变主要包括DNA甲基化改变和组蛋白修饰,这两种调控模式本身及之间的相互作用网络可导致印记丢失,染色质重塑,非必需重复序列的转录、基因的异常活化以及抑制肿瘤发生和演进基因的异常沉默等,在异常的克隆性增生和癌性增生的级联事件起始中发挥重要作用,在酵母模型中的研究更深入的理解了肿瘤干细胞的定义以及引起肿瘤的相关分子机制.表观遗传学的研究为进一步了解肿瘤的各种特性,优化肿瘤的早期诊断,改善肿瘤的预后提供了新的策略.     

早期营养不良对糖代谢影响的研究进展

早期营养不良和成年后代谢性疾病的关系非常密切,且越来越受到关注。研究发现,早期营养不良可通过表观遗传修饰影响肝脏、胰腺、骨骼肌等器官的发育及基因表达水平的改变,从而导致生后以糖代谢紊乱为中心的代谢综合征（metabolicsyndrome,MS）发生。     

Epigenetic changes associated with inflammation in breast cancer patients treated with chemotherapy

Inflammation has been associated with fatigue during and after various types of breast cancer treatments. We examined whether prior chemotherapy was associated with DNA methylation patterns that could explain persisting inflammation and/or fatigue in women treated for breast cancer. Prior to breast radiation therapy, DNA was extracted from peripheral blood mononuclear cells (PBMCs) of 61 Stage 0-IIIA breast cancer patients who had received partial mastectomy with or without chemotherapy. DNA methylation was assessed at >485,000 CpG sites across the genome along with fatigue and plasma inflammatory markers previously associated with fatigue. Compared to non-chemotherapy-treated, women who had received chemotherapy exhibited significantly decreased methylation at eight CpG sites (p < 1.03 × 10⁻⁷) including four in exon 11 of transmembrane protein 49 (TMEM49), which demonstrated the largest decreases in methylation. Lower methylation at each identified CpG site was associated with increased plasma soluble tumor necrosis factor receptor 2 (sTNFR2) and interleukin (IL)-6 and mediated the relationship between chemotherapy and increases in these inflammatory biomarkers adjusting for multiple clinical and treatment characteristics. sTNFR2, but not CpG methylation status, was correlated with fatigue. Six months after breast radiation therapy, DNA methylation, inflammatory biomarkers and fatigue assessments were repeated in a subset of subjects (N = 39). Reduced methylation in 4 of the 8 identified CpG sites was still observed in chemotherapy versus non-chemotherapy-treated patients, albeit with some decay indicating the dynamic and potentially reversible nature of the changes. Reduced methylation in these 4 CpG sites also continued to correlate with either increased sTNFR2 or IL-6, but not fatigue. In conclusion, prior chemotherapy treatment was associated with decreased methylation of CpG sites in DNA from PBMCs of breast cancer patients, which correlated with increased inflammatory markers prior to and 6 months after radiation therapy. Persisting epigenetic changes secondary to chemotherapy may be one factor that contributes to inflammation and its consequences including cancer-related fatigue in vulnerable breast cancer patients.     

早年创伤对认知功能影响的研究进展

早年创伤是一个全球普遍存在的问题,严重影响儿童、青少年的大脑发育,继而导致认知功能、人格水平、社会行为的改变。早年创伤主要是父母、监护人或其他年长者对孩子施加躯体虐待、躯体忽视、情感虐待、情感忽视或性虐待。美国一项调查显示：儿童虐待事件的发生率高达1．2％[1]。早年创伤影响认知功能的多个领域,包括学习／工作记忆、视觉空间能力、执行功能、言语智能、复杂推理搜决策、学业表现等比]。创伤造成的认知功能改变是目前国内外神经科学和精神医学领域研究的热点,但其发病机制仍不明确,鉴于早年创伤与认知功能的关系问题,现就早年创伤对大脑发育、神经认知的影响加以综述。     

Differential effects of binge methamphetamine injections on the mRNA expression of histone deacetylases (HDACs) in the rat striatum

Methamphetamine use disorder is characterized by recurrent binge episodes. Humans addicted to methamphetamine experience various degrees of cognitive deficits and show evidence of neurodegenerative processes in the brain. Binge injections of METH to rodents also cause significant toxic changes in the brain. In addition, this pattern of METH injections can alter gene expression in the dorsal striatum. Gene expression is regulated, in part, by histone deacetylation. We thus tested the possibility that METH toxic doses might cause changes in the mRNA levels of histone deacetylases (HDACs). We found that METH did produce significant decreases in the mRNA expression of HDAC8, which is a class I HDAC. METH also decreased expression of HDAC6, HDAC9, and HDAC10 that are class II HDACs. The expression of the class IV HDAC, HDAC11, was also suppressed by METH. The expression of Sirt2, Sirt5, and Sirt6 that are members of class III HDACs was also downregulated by METH injections. Our findings implicate changes in HDAC expression may be an early indicator of impending METH-induced neurotoxicity in the striatum. This idea is consistent with the accumulated evidence that some HDACs are involved in neurodegenerative processes in the brain.     

The effects of selected inhibitors of histone modifying enzyme on C6 glioma cells

BackgroundAberrant epigenetic histone modifications are implicated in cancer pathobiology, therefore histone modifying enzymes are emerging targets for anti-cancer therapy. There is a few evidence for deregulation of the histone modifying enzymes in glioblastomas. Glioma treatment is a clinical challenge due to its resistance to current therapies.MethodsThe effect of selected inhibitors on epigenetic modifications and viability of glioma C6 cells were studied using immunofluorescence and MTT metabolism test.ResultsWe found that VPA and TSA increase histone H4 acetylation in glioma cells, while chaetocin and BIX01294 at low concentrations reduce H3K9me3, and 3DZNep decreases H3K27me3. Long-term treatment with some epigenetic inhibitors affects viability of glioma cells.ConclusionsWe established the concentrations of selected inhibitors which in C6 glioma cells inhibit the enzyme activity, but do not decrease cell viability, hence allow to study the role of histone modifications in C6 glioma biology.     

Palmitate-TLR4 signaling regulates the histone demethylase,JMJD3, in macrophages and impairs diabetic wound healing

Chronic macrophage inflammation is a hallmark of type 2 diabetes (T2D) and linked to the development of secondary diabetic complications. T2D is characterized by excess concentrations of saturated fatty acids (SFA) that activate innate immune inflammatory responses, however, mechanism(s) by which SFAs control inflammation is unknown. Using monocyte-macrophages isolated from human blood and murine models, we demonstrate that palmitate (C16:0), the most abundant circulating SFA in T2D, increases expression of the histone demethylase, Jmjd3. Upregulation of Jmjd3 results in removal of the repressive histone methylation (H3K27me3) mark on NFκB-mediated inflammatory gene promoters driving macrophage-mediated inflammation. We identify that the effects of palmitate are fatty acid specific, as laurate (C12:0) does not regulate Jmjd3 and the associated inflammatory profile. Further, palmitate-induced Jmjd3 expression is controlled via TLR4/MyD88-dependent signaling mechanism, where genetic depletion of TLR4 (Tlr4^−/−) or MyD88 (MyD88^−/−) negated the palmitate-induced changes in Jmjd3 and downstream NFκB-induced inflammation. Pharmacological inhibition of Jmjd3 using a small molecule inhibitor (GSK-J4) reduced macrophage inflammation and improved diabetic wound healing. Together, we conclude that palmitate contributes to the chronic Jmjd3-mediated activation of macrophages in diabetic peripheral tissue and a histone demethylase inhibitor-based therapy may represent a novel treatment for nonhealing diabetic wounds.     

Cross-region reduction in 5-hydroxymethylcytosine in Alzheimer's disease brain

Epigenetic processes play a key role in the central nervous system and altered levels of 5-methylcytosine have been associated with a number of neurologic phenotypes, including Alzheimer's disease (AD). Recently, 3 additional cytosine modifications have been identified (5-hydroxymethylcytosine, 5-formylcytosine, and 5-carboxylcytosine), which are thought to be intermediate steps in the demethylation of 5-methylcytosine to unmodified cytosine. Little is known about the frequency of these modifications in the human brain during health or disease. In this study, we used immunofluorescence to confirm the presence of each modification in human brain and investigate their cross-tissue abundance in AD patients and elderly control samples. We identify a significant AD-associated decrease in global 5-hydroxymethylcytosine in entorhinal cortex and cerebellum, and differences in 5-formylcytosine levels between brain regions. Our study further implicates a role for epigenetic alterations in AD.