HIV-1感染引起组蛋白乙酰化和增加p21WAF1表达

目的：DNA甲基化和组蛋白乙酰化是基因表达调控的主要形式。人类免疫缺陷病毒（HIV-1）可引起T淋巴细胞DNA甲基化酶上调。本文旨在明确HIV-1对细胞周期依赖刺激酶抑制剂p21^WAF1表达的影响。方法：建立HIV-1感染的Hut78细胞系；以RT-PCR和Westem blotting 分析p21^WAF1表达情况；以亚硫酸氢钠修饰DNA和基因测序，研究p21^WAF1基因启动子甲基化，以Western blot-ting 和染色体免疫测定探究总组蛋白和与p21^WAF1基因启动子相关的组蛋白乙酰化水平。并以GST pull-down和免疫沉淀分析HIV-1导致乙酰化及乙酰化引起p21^WAF1过表达的可能机理。结果：HIV-1感染后，其反式激活蛋白Tat与辅助转录因子P/CAF、hGCN5结合，共同刺激组蛋白H3乙酰化。尽管p21^WAF1启动子部分区域有甲基化发生，但p21^WAF1表达仍上调。这可能与E2A对p21^WAF1的作用有关。结论：HIV-1感染可引起T淋巴细胞p21^WAF1基因的甲基化和乙酰化紊乱，导致p21^WAF1表达增强。     

Modification of low density lipoprotein potentiates its inhibitory effect on catecholamine secretion in cultured bovine adrenal medullary cells

Low density lipoprotein (LDL) and lipoprotein(a) suppress catecholamine secretion in cultured adrenal medullary cells. Modification of LDL by oxidation or acetylation potentiates various atherogenic actions of LDL. In the present study, we investigated whether the modification of LDL influences catecholamine secretion in cultured bovine adrenal medullary cells. The exposure of LDL to CuSO₄ caused a time-dependent oxidation of LDL. Maximal oxidation of LDL was observed after exposure to CuSO₄ for 24 h. Native LDL inhibited catecholamine secretion induced by carbachol to 68.5% of control. Oxidized LDL caused further inhibition of carbachol-evoked secretion to 37.6% of control. Acetylated LDL inhibited it to 41.0% of control. There was a good correlation between the extent of LDL oxidation and the inhibition of catecholamine secretion. These results suggest that oxidation or acetylation of LDL augments its inhibitory effect on the secretion of catecholamines. Since catecholamines are a risk factor of atherosclerosis, the inhibitory effect by such modified LDL may be a mechanism inhibiting atherosclerotic progression. Received: 29 January 1999 / Accepted: 19 April 1999 / Published online: 22 June 1999     

乳腺癌中蛋白高乙酰化/琥珀酰化水平及其同组蛋白2AX高表达的相关性

目的 明确乳腺癌中蛋白乙酰化/琥珀酰化修饰和组蛋白2AX(H2AX)表达水平,并确认两者之间是否具有相关性.方法 Western blotting及RT-PCR方法检测11例乳腺癌组织和细胞中蛋白修饰和H2AX表达水平,并利用组蛋白去乙酰化酶抑制剂初步明确乙酰化和琥珀酰化可能存在的共同调控方式;载体构建及过表达方法明确...     

Histone deacetylase inhibitors inhibit cervical cancer growth through Parkin acetylation-mediated mitophagy

Parkin, an E3 ubiquitin ligase, plays a role in maintaining mitochondrial homeostasis through targeting damaged mitochondria for mitophagy. Accumulating evidence suggests that the acetylation modification of the key mitophagy machinery influences mitophagy level, but the underlying mechanism is poorly understood. Here, our study demonstrated that inhibition of histone deacetylase (HDAC) by treatment of HDACis activates mitophagy through mediating Parkin acetylation, leading to inhibition of cervical cancer cell proliferation. Bioinformatics analysis shows that Parkin expression is inversely correlated with HDAC2 expression in human cervical cancer, indicating the low acetylation level of Parkin. Using mass spectrometry, Parkin is identified to interact with two upstream molecules, acetylase acetyl-CoA acetyltransferase 1 (ACAT1) and deacetylase HDAC2. Under treatment of suberoylanilide hydroxamic acid (SAHA), Parkin is acetylated at lysine residues 129, 220 and 349, located in different domains of Parkin protein. In in vitro experiments, combined mutation of Parkin largely attenuate the interaction of Parkin with PTEN induced putative kinase 1 (PINK1) and the function of Parkin in mitophagy induction and tumor suppression. In tumor xenografts, the expression of mutant Parkin impairs the tumor suppressive effect of Parkin and decreases the anticancer activity of SAHA. Our results reveal an acetylation-dependent regulatory mechanism governing Parkin in mitophagy and cervical carcinogenesis, which offers a new mitophagy modulation strategy for cancer therapy.     

脊髓p300在大鼠CCI所致神经病理性疼痛中的作用

目的 探索脊髓p300在大鼠慢性缩窄性神经损伤（CCI）模型所致神经病理性疼痛中的作用.方法 32只雄性SD大鼠随机分为假手术组（Sham组）和CCI组,24只大鼠鞘内置管后制作CCI模型,随机分为3组：二甲基亚砜（DMSO）组、p300乙酰转移酶抑制剂C646组和对照剂C37组.术后第7天开始鞘内给药直至第14天,观察大鼠机械痛阈变化,术后第14天利用免疫荧光及Western blot检测脊髓p300的表达分布.结果 （1）p300主要表达于神经元中,且CCI组表达量高于Sham组（P＜0.05）.（2）鞘内注射C646明显提高CCI大鼠机械痛阈,而注射C37和DMSO后大鼠痛阈无明显变化.结论 大鼠脊髓p300蛋白参与神经病理性疼痛,其机制可能与其乙酰转移酶活性有关.     

组蛋白修饰在糖尿病发病中的作用

组蛋白修饰是一种重要的表观遗传学现象,对基因表达调控发挥着至关重要的作用。一般认为糖尿病是一种由环境因素、遗传因素及免疫因素等共同作用的代谢性疾病,其发病机制主要与胰岛素抵抗、胰岛素分泌不足及免疫炎症等密切相关。目前,糖尿病的发病机制尚未完全清楚,治疗中也有一定局限性。但有研究表明组蛋白修饰与糖尿病的发病有密切关系。     

Tau pathology modulates Pin1 post-translational modifications and may be relevant as biomarker

A prerequisite to dephosphorylation at Ser–Pro or Thr–Pro motifs is the isomerization of the imidic peptide bond preceding the proline. The peptidyl-prolyl cis/trans isomerase named Pin1 catalyzes this mechanism. Through isomerization, Pin1 regulates the function of a growing number of targets including the microtubule-associated tau protein and is supposed to be deregulated Alzheimer's disease (AD). Using proteomics, we showed that Pin1 is posttranslationally modified on more than 5 residues, comprising phosphorylation, N-acetylation, and oxidation. Although Pin1 expression remained constant, Pin1 posttranslational two-dimensional pattern was modified by tau overexpression in a tau-inducible neuroblastoma cell line, in our THY-Tau22 mouse model of tauopathy as well as in AD. Interestingly, in all of these systems, Pin1 modifications were very similar. In AD brain tissue when compared with control, Pin1 is hyperphosphorylated at serine 16 and found in the most insoluble hyperphosphorylated tau fraction of AD brain tissue. Furthermore, in all tau pathology conditions, acetylation of Pin1 may also contribute to the differences observed. In conclusion, Pin1 displays several posttranslational modifications, which are specific in tauopathies and may be useful as biomarker.     

Histone Acetylation Level and Histone Acetyltransferase/Deacetylase Activity in Ejaculated Sperm from Normozoospermic Men

Purpose

The aim of this work was to evaluate nuclear histone acetylation level and total histone acetyltransferase (HAT) and deacetylase (HDAC) activity in ejaculated sperm and their relevance to conventional sperm parameters.

Materials and Methods

Thirty-three normozoospermic men were included in this study. Semen samples were processed by swim-up and then immunostained by six acetylation antibodies (H3K9ac, H3K14ac, H4K5ac, H4K8ac, H4K12ac, and H4K16ac). Our preliminary study verified the expression of HAT/HDAC1 in mature human sperm. From vitrified-warmed sperm samples, total HAT/HDAC activity was measured by commercially available kits. Nuclear DNA integrity was also measured by TUNEL assay.

Results

The levels of six acetylation marks were not related with conventional sperm parameters including sperm DNA fragmentation index (DFI) as well as HAT/HDAC activity. However, sperm DFI was positively correlated with HAT activity (r=0.038 after adjustment, p<0.02). HAT activity showed a negative relationship with HDAC activity (r=-0.51, p<0.01). Strict morphology was negatively correlated with acetylation enzyme index (=HAT activity/HDAC activity) (r=-0.53, p<0.01).

Conclusion

Our works demonstrated a significant relationship of acetylation-associated enzyme activity and strict morphology or sperm DFI.     

Molecular dynamics of ultradian glucocorticoid receptor action

In recent years it has become evident that glucocorticoid receptor (GR) action in the nucleus is highly dynamic, characterized by a rapid exchange at the chromatin template. This stochastic mode of GR action couples perfectly with a deterministic pulsatile availability of endogenous ligand in vivo. The endogenous glucocorticoid hormone (cortisol in man and corticosterone in rodent) is secreted from the adrenal gland with an ultradian rhythm made up of pulses at approximately hourly intervals. These two components - the rapidly fluctuating ligand and the rapidly exchanging receptor - appear to have evolved to establish and maintain a system that is exquisitely responsive to the physiological demands of the organism. In this review, we discuss recent and innovative work that questions the idea of steady state, static hormone receptor responses, and replaces them with new concepts of stochastic mechanisms and oscillatory activity essential for optimal function in molecular and cellular systems.