Seasonal variation in expression pattern of genes under HSP70

Heat shock protein 70 (HSP70) is one of the most abundant and best characterized heat shock protein family that consists of highly conserved stress proteins, expressed in response to stress, and plays crucial roles in environmental stress tolerance and adaptation. The present study was conducted to identify major types of genes under the HSP70 family and to quantify their expression pattern in heat- and cold-adapted Indian goats (Capra hircus) with respect to different seasons. Five HSP70 gene homologues to HSPA8, HSPA6, HSPA1A, HSPA1L, and HSPA2 were identified by gene-specific primers. The cDNA sequences showed high similarity to other mammals, and proteins have an estimated molecular weight of around 70 kDa. The expression of HSP70 genes was observed during summer and winter. During summer, the higher expression of HSPA8, HSPA6, and HSPA1A was observed, whereas the expression levels of HSPA1L and HSPA2 were found to be lower. It was also observed that the expression of HSPA1A and HSPA8 was higher during winter in both heat- and cold-adapted goats but downregulates in case of other HSPs. Therefore, both heat and cold stress induced the overexpression of HSP70 genes. An interesting finding that emerged from the study is the higher expression of HSP70 genes in cold-adapted goats during summer and in heat-adapted goats during winter. Altogether, the results indicate that the expression pattern of HSP70 genes is species- and breed-specific, most likely due to variations in thermal tolerance and adaptation to different climatic conditions.     

Comparative analysis of differential gene expression of HSP40 and HSP70 family isoforms during heat stress and HIV-1 infection in T-cells

Heat shock proteins (HSPs) are a family of cellular proteins involved in a variety of biological functions including chaperone activity. HSPs are classified based on their molecular weight and each family has several isoforms in eukaryotes. HSP40 is the most diverse family acting as a co-chaperone for the highly conserved HSP70 family. Some of the isoforms are reported to be induced during heat stress. Few studies have also highlighted the diverse role of some isoforms in different stress conditions including viral infections. But till date, no study has comprehensively examined the expression profile of different HSP40 and 70 isoforms in either heat stress or HIV-1 infection, a virus that is responsible for the pandemic of AIDS. In the present study, we have compared the mRNA expression profile of HSP40 and HSP70 isoforms during heat stress and HIV-1 infection in a T-cell line and also validated the HIV-1 stress results in peripheral blood mononuclear cells. In case of HSP70, we observed that three isoforms (HSPA1A, HSPA1B, and HSPA6) are highly upregulated during heat stress, but these isoforms were found to be downregulated during the peak of HIV-1 infection. While in case of HSP40, we found that only DNAJA4, DNAJB1, and DNAJB4 showed significant upregulation during heat stress, whereas in HIV-1 infection, majority of the isoforms were induced significantly. Stress-dependent differential expression observed here indicates that different HSP40 and HSP70 isoforms may have specific roles during HIV-1 infection and thus could be important for future studies.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12192-020-01185-y.     

Effects of chronic heat stress on the expressions of heat shock proteins 60, 70, 90, A2, and HSC70 in the rabbit testis

Few studies have focused on the expression of heat shock proteins (HSPs) after chronic heat stress. The objective of this study was to investigate the effect of chronic high temperature–humidity index treatment on the expressions of HSP60, HSP70, HSP90, HSPA2 and HSC70, in the Rex rabbit testis and the expressions of these proteins after recovery from the chronic heat shock. Thirty mature male rabbits of the same age were randomly divided into three groups: control, heat stress, and recovery. The western blot results showed that the expressional levels of HSP60, HSP90, and HSC70 increased significantly and HSPA2 was elevated slightly after a 9-week heat treatment. HSP70 was absent in the control testis and had a high level of expression after heat stress. All of these proteins partially reverted back to normal levels after a 9-week recovery. The immunohistochemical results indicated that the expression patterns of HSP60, HSP90, HSPA2, and HSC70 did not change.     

HSPA12B inhibits lipopolysaccharide‐induced inflammatory response in human umbilical vein endothelial cells

Heat shock protein A12B (HSPA12B) is a newly discovered member of the HSP70 protein family. This study investigated the effects of HSPA12B on lipopolysaccharide (LPS)‐induced inflammatory responses in human umbilical vein endothelial cells (HUVECs) and the possible mechanisms involved. A HUVECs inflammatory model was induced by LPS. Overexpression of HSPA12B in HUVECs was achieved by infection with recombinant adenoviruses encoding green fluorescence protein‐HSPA12B. Knockdown of HSPA12B was achieved by siRNA technique. Twenty four hours after virus infection or siRNA transfection, HUVECs were stimulated with 1 μg/ml LPS for 4 hrs. Endothelial cell permeability ability was determined by transwell permeability assay. The binding rate of human neutrophilic polymorphonuclear leucocytes (PMN) with HUVECs was examined using myeloperoxidase assay. Cell migrating ability was determined by the wound‐healing assay. The mRNA and protein expression levels of interested genes were analyzed by RT‐qPCR and Western blot, respectively. The release of cytokines interleukin‐6 and tumour necrosis factor‐α was measured by ELISA. HSPA12B suppressed LPS‐induced HUVEC permeability and reduced PMN adhesion to HUVECs. HSPA12B also inhibited LPS‐induced up‐regulation of adhesion molecules and inflammatory cytokine expression. By contrast, knockdown of HSPA12B enhanced LPS‐induced increases in the expression of adhesion molecules and inflammatory cytokines. Moreover, HSPA12B activated PI3K/Akt signalling pathway and pharmacological inhibition of this pathway by Wortmannin completely abrogated the protection of HSPA12B against inflammatory response in HUVECs. Our results suggest that HSPA12B attenuates LPS‐induced inflammatory responses in HUVECs via activation of PI3K/Akt signalling pathway.     

Overexpression of HSPA12B protects against cerebral ischemia/reperfusion injury via a PI3K/Akt-dependent mechanism

Background and purpose: HSPA12B is a newly discovered member of the Hsp70 family proteins. This study investigated the effects of HSPA12B on focal cerebral ischemia/reperfusion (I/R) injury in mice. Methods: Transgenic mice overexpressing human HSPA12B (Tg) and wild-type littermates (WT) were subjected to 60 min of middle cerebral artery occlusion to induce ischemia and followed by reperfusion (I/R). Neurological deficits, infarct volumes and neuronal death were examined at 6 and 24 hrs after reperfusion. Blood–brain-barrier (BBB) integrity and activated cellular signaling were examined at 3 hrs after reperfusion. Results: After cerebral I/R, Tg mice exhibited improvement in neurological deficits and decrease in infarct volumes, when compared with WT I/R mice. BBB integrity was significantly preserved in Tg mice following cerebral I/R. Tg mice also showed significant decreases in cell injury and apoptosis in the ischemic hemispheres. We observed that overexpression of HSPA12B activated PI3K/Akt signaling and suppressed JNK and p38 activation following cerebral I/R. Importantly, pharmacological inhibition of PI3K/Akt signaling abrogated the protection against cerebral I/R injury in Tg mice. Conclusions: The results demonstrate that HSPA12B protects the brains from focal cerebral I/R injury. The protective effect of HSPA12B is mediated though a PI3K/Akt-dependent mechanism. Our results suggest that HSPA12B may have a therapeutic potential against ischemic stroke.     

CGRP和NGF对局灶性脑缺血再灌注大鼠海马HSP70蛋白表达的影响

目的探讨外源性降钙素基因相关肽(CGRP)和神经生长因子(NGF)对局灶性脑缺血再灌注大鼠海马热休克蛋白70(HSP70)表达的影响.方法用线栓法制备大鼠大脑中动脉阻塞(MCAO)模型,应用免疫组化和显微图像分析方法检测局灶性脑缺血再灌注大鼠海马HSP70的表达.结果假手术组海马未见HSP70阳性细胞,缺血再灌注组海马HSP70阳性细胞数增多.分别注射CGRP或NGF后海马区HSP70阳性细胞平均光密度值明显高于缺血再灌注组(P<0.01),二者合用时平均光密度值较比单独应用高(P<0.05).结论CGRP和NGF上调缺血神经元HSP70的表达,二者合用作用更强,对缺血神经元恢复有促进作用.     

HSPA2 overexpression protects V79 fibroblasts against bortezomib-induced apoptosis

Human HSPA2 is a member of the HSPA (HSP70) family of heat-shock proteins, encoded by the gene originally described as testis-specific. Recently, it has been reported that HSPA2 can be also expressed in human somatic tissues in a cell-type specific manner. The aim of the present study was to find out whether HSPA2 can increase the resistance of somatic cells to the toxic effect of heat shock, proteasome inhibitors, and several anticancer cytostatics. We used a Chinese hamster fibroblast V79 cell line because these cells do not express the HSPA2 and cytoprotective HSPA1 proteins under normal culture conditions and show limited ability to express HSPA1 in response to heat shock and proteasome inhibitors. We established, by retroviral gene transfer, a stable V79/HSPA2 cell line, which constitutively overexpressed HSPA2 protein. The major observation of our study was that HSPA2 increased long-term survival of cells subjected to heat shock and proteasome inhibitors. We found, that HSPA2 confers resistance to bortezomib-induced apoptosis. Thus, we showed for the first time that in somatic cells HSPA2 can be a part of a system protecting cells against cytotoxic stimuli inducing proteotoxic stress.     

Human heat shock cognate protein (HSC70/HSPA8) interacts with negatively charged phospholipids by a different mechanism than other HSP70s and brings HSP90 into membranes

Heat shock proteins (HSP) are critical elements for the preservation of cellular homeostasis by participating in an array of biological processes. In addition, HSP play an important role in cellular protection from various environmental stresses. HSP are part of a large family of different molecular mass polypeptides, displaying various expression patterns, subcellular localizations, and diversity functions. An unexpected observation was the detection of HSP on the cell surface. Subsequent studies have demonstrated that HSP have the ability to interact and penetrate lipid bilayers by a process initiated by the recognition of phospholipid heads, followed by conformational changes, membrane insertion, and oligomerization. In the present study, we described the interaction of HSPA8 (HSC70), the constitutive cytosolic member of the HSP70 family, with lipid membranes. HSPA8 showed high selectivity for negatively charged phospholipids, such as phosphatidylserine and cardiolipin, and low affinity for phosphatidylcholine. Membrane insertion was mediated by a spontaneous process driven by increases in entropy and diminished by the presence of ADP or ATP. Finally, HSPA8 was capable of driving into the lipid bilayer HSP90 that does not display any lipid biding capacity by itself. This observation suggests that HSPA8 may act as a membrane chaperone.     

热休克蛋白A5介导的自噬在小鼠脑缺血/再灌注损伤中的作用

目的：探讨热休克蛋白A5（HSPA5）诱导的自噬在小鼠脑缺血/再灌注损伤中的作用。方法：将36只BALB/c小鼠随机分为sham、缺血再灌注（I/R）、vehicle + I/R、3-甲基腺嘌呤（3-MA） + I/R、scramble siRNA + I/R和HSPA5 siRNA + I/R组（n=6）。Sham组只进行手术操作,不插入线栓。I/R采用大脑中动脉阻塞（MCAO）60 min后再灌注24 h。Vehicle + I/R组和3-MA + I/R将5μl 0.9% NaCl或3-MA （30 mg/ml）在MCAO前30 min侧脑室注射。scramble siRNA + I/R组和HSPA5 siRNA + I/R组将5μl scramble siRNA或HSPA5 siRNA （2μg/μl）在MCAO前24 h侧脑室注射。检测神经细胞内自噬体、缺血大脑皮层（LC3）-Ⅱ/LC3-I表达、神经元损伤程度及神经功能缺损。结果：显微镜下sham组小鼠大脑皮层神经细胞形态正常;I/R组小鼠缺血大脑皮层神经元胞质中细胞器减少,自噬体形成。与sham组比较,I/R组缺血大脑皮层LC3-Ⅱ/LC3-I蛋白表达水平显著增高（P < 0.05）;与I/R组相比,3-MA + I/R组或HSPA5 siRNA + I/R组缺血大脑皮层LC3-Ⅱ/LC3-I蛋白表达明显减少（P < 0.05）;3-MA + I/R组及HSPA5 siR-NA + I/R组I/R后脑缺血性损伤及神经系统症状加重（P < 0.05）。结论：HSPA5诱导自噬可能在小鼠局灶性I/R损伤中发挥保护作用。     

Endogenous calcitonin gene-related peptide protects human alveolar epithelial cells through protein kinase Cepsilon and heat shock protein

The intracellular mechanisms of ischemic preconditioning (PC) in preventing lung dysfunction following transplantation, shock, and trauma remain poorly understood. Previously, we have shown that alveolar epithelial cells secrete calcitonin gene-related peptide (CGRP) under inflammatory stress. Using a hypoxia/reoxygenation (H/R) and PC model, we found that CGRP was also secreted from human type II alveolar epithelial cells (A549) after PC. The locally released CGRP interacted with its receptor on the membrane of A549 cells and elicited downstream signals mediating the PC effect, because hCGRP(8-37), a specific CGRP receptor antagonist, attenuated the protective effect of PC. Pre-inhibition of CGRP protein synthesis by small interfering RNA exacerbated (but overexpression of the CGRP gene ameliorated) H/R-induced cell death, which supports the autocrine effect of CGRP on A549 cells. Exogenous bioactive CGRP mimicked the beneficial effect of PC and up-regulated the expression of heat shock protein 70 (HSP70), which might act as the end effector to maintain cell viability. These effects were sensitive to hCGRP(8-37), calphostin C (a protein kinase C (PKC) inhibitor), and 5-hydroxydecanoic acid (a mitochondrial K(+)(ATP) channel blocker) but were insensitive to protein kinase A blockers. Moreover, CGRP induced the membrane translocation of PKCepsilon. PKCV1-2 (a cell-permeable inhibitory peptide of PKCepsilon) effectively abolished CGRP-induced HSP70 expression and cell protection. Therefore, PC induces CGRP secretion from human alveolar epithelial cells, and the locally released CGRP acts back on these cells, protecting them from H/R injury. The post-receptor signaling of CGRP is through PKCepsilon-dependent expression of HSP70.     

Knockdown of Heat Shock Proteins HSPA6 (Hsp70B’) and HSPA1A (Hsp70-1) Sensitizes Differentiated Human Neuronal Cells to Cellular Stress

Heat shock proteins are involved in cellular repair and protective mechanisms that counter characteristic features of neurodegenerative diseases such as protein misfolding and aggregation. The HSPA (Hsp70) multigene family includes the widely studied HSPA1A (Hsp70-1) and the little studied HSPA6 (Hsp70B’) which is present in the human genome and not in mouse and rat. The effect of knockdown of HSPA6 and HSPA1A expression was examined in relation to the ability of differentiated human SH-SY5Y neuronal cells to tolerate thermal stress. Low dose co-application of celastrol and arimoclomol, which induces Hsps, enhanced the ability of differentiated neurons to survive heat shock. Small interfering RNA (siRNA) knockdown of HSPA6 and HSPA1A resulted in loss of the protective effect of co-application of celastrol/arimoclomol. More pronounced effects on neuronal viability were apparent at 44 °C heat shock compared to 43 °C. siRNA knockdown suggests that HSPA6 and HSPA1A contribute to protection of differentiated human neuronal cells from cellular stress.     

Developmental expression of heat shock proteins 60, 70, 90, and A2 in rabbit testis

Currently, no reports exist concerning the expression patterns and developmental changes of heat shock proteins (HSPs) in the reproductive system of the male rabbit. In the present study, the testes of rabbits were collected at post-natal months 1, 2, 3, 4, 5, and 40. HSP60, HSC70, HSP90, and HSPA2 were detected by both Western blot and immunohistochemical methods. The expression levels of HSP60 and HSC70 showed no apparent change during the developmental progress. HSP90 increased at the second month; prior to the third month, HSPA2 was expressed at a low level. Immunohistochemistry localized HSP60 in the cytoplasm of all of the cell types in the testis and in the apical pole of the spermatids. The distribution pattern of HSC70 and HSP90 was similar, both being mainly located in the spermatids of stage VII-VIII and in the cytoplasm of the spermatogonium. HSPA2 staining was mainly observed in the cytoplasm of pachytene spermatocytes and spermatids in testes of 3-, 4-, 5-, and 40-month-old rabbits. These results provide a basic reference point for studying the functions of HSPs in the male rabbit reproductive system and should be beneficial for the future determination of the mechanisms of heat shock on male rabbit fertility.     

HSP70 interacts with TRAF2 and differentially regulates TNFα signalling in human colon cancer cells

Members of tumour necrosis factor (TNF) family usually trigger both survival and apoptotic signals in various cell types. Heat shock proteins (HSPs) are conserved proteins implicated in protection of cells from stress stimuli. However, the mechanisms of HSPs in TNFα‐induced signalling pathway have not been fully elucidated. We report here that HSP70 over‐expression in human colon cancer cells can inhibit TNFα‐induced NFκB activation but promote TNFα‐induced activation of c‐Jun N‐terminal kinase (JNK) through interaction with TNF receptor (TNFR)‐associated factor 2 (TRAF2). We provide evidence that HSP70 over‐expression can sequester TRAF2 in detergent‐soluble fractions possibly through interacting with TRAF2, leading to reduced recruitment of receptor‐interacting protein (RIP1) and IκBα kinase (IKK) signalosome to the TNFR1–TRADD complex and inhibited NFκB activation after TNFα stimuli. In addition, we found that HSP70–TRAF2 interaction can promote TNFα‐induced JNK activation. Therefore, our study suggests that HSP70 may differentially regulate TNFα‐induced activation of NFκB and JNK through interaction with TRAF2, contributing to the pro‐apoptotic roles of HSP70 in TNFα‐induced apoptosis of human colon cancer cells.     

Temperature Threshold and Preservation of Signaling for Mitochondrial Membrane Proteins during Ischemia in Rabbit Heart

Temperature modulates both myocardial energy requirements and production. We have previously demonstrated that myocardial protection induced by hypothermic adaptation preserves expression of genes regulating heat shock protein and the nuclear-encoded mitochondrial proteins, the adenine nucleotide translocator isoform 1 (ANT₁), and the β subunit of F₁-ATPase (βF₁-ATPase). This preservation is associated with a reduction in ATP depletion similar to that noted in cardioplegic arrested hearts preserved at a critical temperature (30°C) or below. We tested the hypothesis that expression of these genes may also be subject to this temperature threshold phenomenon. Isolated perfused rabbit hearts were subjected to ischemic cardioplegic arrest at 4, 30, or 34°C for 120 min. Cardiac function indices and steady-state mRNA levels for ANT₁, βF₁-ATPase, and HSP70-1 were measured prior to ischemia (B) and after 45 min of reperfusion. Cardiac function was significantly depressed in the 34°C group. Ischemia at 34°C reduced steady-state mRNA levels for ANT₁and βF₁-ATPase from B, but these levels were similarly preserved at 4 and 30°C. HSP70-1 levels were mildly elevated (fourfold) above B to similar levels at all three temperatures. These results indicate that mRNA expression for ANT₁and βF₁-ATPase is specifically preserved in a pattern consistent with the temperature threshold phenomenon. HSP70-1 expression is not influenced by ischemic temperature. Preservation of gene expression for these mitochondrial proteins implies that signaling for mitochondrial biogenesis or resynthesis is maintained after ischemic insult.