Ischemic preconditioning protects cardiomyocytes against ischemic injury by inducing GRP78

Ischemic preconditioning (IP) conferred by brief ischemia-reperfusion induces resistance to cell injury due to the following lethal ischemia. This study aimed to elucidate whether 78-kDa glucose-regulated protein (GRP78), a main ER molecular chaperone, contributes to IP-mediated protection against ischemic myocardial injury. In a rat coronary artery occlusion model, the GRP78 protein level increased to 210% of the sham level by early IP with three cycles of 4-min ischemia and 4-min reperfusion. The IP reduced infarct size in subsequent lethal ischemia. In primary cardiomyocytes, the simulated IP procedure, incubation in oxygen-glucose deprivation (OGD) medium, also increased the GRP78 expression and suppressed the cell death caused by lethal ischemia. Transfection of grp78 antisense oligonucleotide attenuated the IP-mediated resistance to ischemia. This study showed for the first time that early IP up-regulates myocardial GRP78. It was suggested that GRP78 induced by early IP contributes to protect cardiomyocytes against ischemic injury.     

T cell receptor-mediated signaling induces GRP78 expression in T cells: the implications in maintaining T cell viability

The 78-kDa glucose-regulated protein (GRP78) is an important molecular chaperone in the endoplasmic reticulum (ER) induced by various stresses. This study showed that stimulation with anti-CD3 mAb, PMA plus ionomycin, or an antigen increased the levels of GRP78 mRNA in primary T cells, which was inhibited by Ca²⁺ chelators EGTA and BAPTA-AM and by an inhibitor of calcineurin FK506. In addition, the specific knockdown of GRP78 protein expression induced apoptosis in mouse EL-4 T cell line associated with CHOP induction and caspase-3 activation. Furthermore, overexpression of GRP78 inhibited PMA/ionomycin-induced cell death in EL-4 cells. Collectively, GRP78 expression is induced by TCR activation via a Ca²⁺-dependent pathway and may play a critical role in maintaining T cell viability in the steady and TCR-activated states. These results suggest a novel regulatory mechanism and an essential function of GRP78 in T cells.     

Targeting GRP78 to enhance melanoma cell death

Targeting endoplasmic reticulum stress-induced apoptosis may offer an alternative therapeutic strategy for metastatic melanoma. Fenretinide and bortezomib induce apoptosis of melanoma cells but their efficacy may be hindered by the unfolded protein response, which promotes survival by ameliorating endoplasmic reticulum stress. The aim of this study was to test the hypothesis that inhibition of GRP78, a vital unfolded protein response mediator, increases cell death in combination with endoplasmic reticulum stress-inducing agents. Down-regulation of GRP78 by small-interfering RNA increased fenretinide- or bortezomib-induced apoptosis. Treatment of cells with a GRP78-specific subtilase toxin produced a synergistic enhancement with fenretinide or bortezomib. These data suggest that combining endoplasmic reticulum stress-inducing agents with strategies to down-regulate GRP78, or other components of the unfolded protein response, may represent a novel therapeutic approach for metastatic melanoma.     

Immunocytochemical localization of atrial natriuretic factor (ANF) in rat female reproductive tract: evidence for a potential hormonal regulation

In the present studies atrial natriuretic factor (ANF) was characterized immunocytochemically in the reproductive tract of immature female rats, and changes of ANF levels in response to different hormonal conditions were demonstrated. Administration of pregnant mare serum gonadotropin (PMSG) to immature animals has shown to be a useful method to synchronize growth, differentiation and atresia of ovarian follicles. ANF immunoreactivity was investigated in rat uterus and oviduct during follicular growth and estrogenic dominance (48 h after PMSG treatment) and during follicular atresia and progesterone dominance (96 h after PMSG treatment). Our immunocytochemical results showed that in rat uterus ANF was localized in endometrial mucosal and glandular epithelium and smooth muscle cells of the myometrium. In the oviduct ANF immunoreactivity was observed in mucosal cells and muscle layers. Immunocytochemical staining patterns and Western blot analysis revealed that ANF levels in rat uterus and oviduct are modulated by the hormonal status. ANF immunoreactivity was elevated during estrogenic dominance (48 h after PMSG) in uterus and oviduct. However, during progesterone dominance (96 h after PMSG) elevation of ANF immunoreactivity was observed in the uterus only. These results raise the possibility that ANF expression in rat oviduct is positively controlled by estrogen and negatively by progesterone. ANF staining in uterus during progesterone phase provides evidence that both estrogen and progesterone regulate ANF levels in uterus. The observed staining patterns indicate that ANF may have intracellular functions as well as a role in priming the extracellular environment. Accordingly, the possibility that ANF might be an important regulatory molecule for autocrine/paracrine communication within the female reproductive tract should be considered.     

Attenuation of unfolded protein response and apoptosis by mReg2 induced GRP78 in mouse insulinoma cells

Murine regenerating (mReg) genes have been implicated in preserving islet cell biology. Expanding on our previous work showing that overexpression of mReg2 protects MIN6 insulinoma cells against streptozotocin-induced apoptosis, we now demonstrate that mReg2 induces glucose-regulated peptide 78 (GRP78) expression via the Akt–mTORC1 axis and protects MIN6 cells against ER stress induced by thapsigargin and glucolipotoxicity. Activation of mTORC1 activity results from both mReg2-induced increased mTOR phosphorylation as well as increased expression of Raptor and GβL. Inhibition of Akt and mTORC1 blunted the ability of mReg2 to induce GRP78 and attenuate unfolded protein response (UPR). Knockdown of GRP78 sensitized the cells overexpressing mReg2 to UPR without affecting its ability to activate Akt–mTORC1 signaling. Induced expression of mReg2 may protect insulin producing cells from ER stress in diabetes.     

Differential expression of p63 isoforms in female reproductive organs

p63 is the identity switch for uterine/vaginal epithelial cell fate, and disruption of p63 expression by diethylstilbestrol (DES) induces cervical/vaginal adenosis in mice. In this article, we report the expression patterns of p63 isoforms (TA, DeltaN, alpha, beta and gamma) in mice, focusing on the reproductive tract. We also present the reproductive tract phenotype of female p63-/- mice. Finally, to better evaluate the potential role of p63 in human development of DES-induced cervical/vaginal adenosis, we describe the ontogeny of p63 in human female fetuses. In adult mice, the DeltaN isoforms of p63 were expressed only in squamous/basal/myoepithelial cells of epithelial tissues, while TA isoforms of p63 were highly expressed in germ cells of the ovary and testis. In fetal mice, the DeltaN and alpha forms of p63 were expressed in the cloacal and urogenital sinus epithelia. In the female p63-/- mice, the sinus vagina developed, but p63-/- sinus vaginal epithelium failed to undergo squamous differentiation confirming an essential role of p63 in squamous epithelial differentiation. Although TAp63 was highly expressed in developing primordial germ cells/oocytes, p63-/- ovaries and oocytes developed normally. The ontogeny of p63 in female reproductive organs was essentially identical in mouse and human. In the human fetus at the susceptible stage for DES-induced cervical/vaginal adenosis, most cervical/vaginal epithelial cells were columnar and negative for p63. Therefore, inhibition of p63 expression by DES should change the cell fate of human Müllerian duct epithelial cells and cause cervical/vaginal adenosis as previously demonstrated in mouse.     

Cripto stabilizes GRP78 on the cell membrane

The ER resident chaperone molecule GRP78 has been shown to translocate to the cell surface where it associates with Cripto and signals cell growth, playing a still partially understood role in tumorigenesis. Consequently, a better understanding of GRP78 topology and structure at the surface of cancer cells represents an important step in the development of a new class of therapeutics. Here, we used a set of programs for creation of a complex containing GRP78 and Cripto proteins. We elucidated possible interactions of GRP78, Cripto, and their complex with the membrane. Using molecular dynamics simulations, we demonstrated that Cripto binding to GRP78 completely changes the dynamics of its behavior on the membrane, not allowing GRP78 to disconnect from it, thus enabling GRP78 tumorigenic functions.     

Immunolocalization of the hyaluronan receptor CD44 in the reproductive tract of the mare

Hyaluronan (HA), a glycosaminoglycan, is a major component of the pericellular matrix which envelopes mammalian cells. Binding of hyaluronan to one of its specific receptors, CD44, modulates transduction of intracellular signals which direct a variety of processes, including embryogenesis, wound healing, inflammation, and neoplasia. Since regulation of these processes is critical to equine reproductive success, localization of constitutive CD44 expression was evaluated by immunohistochemical methods in ovarian, oviductal, and uterine tissues from healthy mares. Ovarian stroma contained thecal cells with varying CD44 immunopositivity. Follicular and granulosa cells of some antral and atretic follicles were positive for CD44. In the oviduct, the luminal epithelium was variably positive for CD44, with overall decreasing intensity of immunostaining from the infundibulum to the isthmus. The CD44 molecule was expressed strongly by surface epithelial cells of the uterine endometrium, but was present only rarely among cells of uterine glands. In addition, CD44 was expressed by smooth muscle cells of vascular walls, oviduct, and uterus. Since CD44 is known to modulate cell movement and differentiation, and was present at multiple sites in the reproductive tract of normal mares, we inferred there may be an important role for the HA-CD44 signaling pathway in reproductive function and inflammation.     

Roles of GRP78 in physiology and cancer

As one member of 70 kDa heat shock proteins, glucose‐regulated protein 78 (GRP78) participates in protein folding, transportation and degradation. This sort of capacity can be enhanced by stresses under which GRP78 is induced rapidly. Unlike its homologues, GRP78 presents multifaceted subcellular position: When ER retention, it serves as the switch of unfolded protein response; When mitochondrial binding, it directly interacts with apoptotic executors; When cell surface residing, it recognizes extracellular ligands, transducing proliferative signals, especially in certain tumors. The close correlation between GRP78 and neoplasm provides us further insight into the event of carcinogenesis and cancer cell chemoresistance, indicating its prognostic predicting significance and validating potential therapeutics for clinical usage, especially because its small molecular inhibitors are emerging quickly these years. What's more, GRP78‐related signaling may be helpful for clearer understanding of its biological mechanisms. J. Cell. Biochem. 110: 1299–1305, 2010. © 2010 Wiley‐Liss, Inc.     

葡萄糖调节蛋白78在子痫前期中的表达及其意义

目的：探讨葡萄糖调节蛋白78（GRP78）mRNA及蛋白在胎盘组织的表达水平及其与子痫前期的发病关系。方法：选择2010年1月-2010年12月在南京医科大学第一附属医院江苏省人民医院产科住院的子痫前期患者35例（子痫前期组）,以同期正常孕妇35例为对照组。采用RT-PCR技术、蛋白印迹（western-blot）法和免疫组化检测两组孕妇胎盘组织中GRP78的mRNA与蛋白表达水平差异。结果：子痫前期组患者胎盘组织中GRP78mRNA与蛋白表达水平均显著高于相应孕周正常妊娠组。结论：子痫前期能够诱导GRP78表达,CHOP/GADD153表达的增高与子痫前期的发病有关。     

Distribution of γ-Aminobutyric Acid and Glutamate Decarboxylase in the Layers of Rat Oviduct

An enzymatic microassay method for glutamate decarboxylase (GAD) and gamma-aminobutyric acid (GABA) was improved to yield a high sensitivity and a low blank. The 20-microns thick freeze-dried sections (0.2-1.5 micrograms dry weight) were prepared from the oviduct and ovary of rat. The analysis of these microsamples by the improved method showed that, contrary to the previous observations, the rat ovary is devoid of GAD activity and contains a trace amount of GABA. Both are present abundantly in the oviduct. In the oviduct mucosa, significant GAD activity was found in the estrous phase, whereas the activity was nearly null during other phases of the estrous cycle. GABA concentration in the oviduct mucosa was 10-fold higher than in the cerebral cortex; its variation during the estrous cycle was not remarkable. In the muscle layer of oviduct, GAD activity had a low peak in the estrous phase and GABA concentration was almost constant during the estrous cycle. The denervation experiment showed that GAD is present in the nerve terminals innervating the oviduct.     

GRP78 induction by cyclosporin A in human HeLa cells

Immunosuppressive drugs such as cyclosporin A (CsA) and FK506 are known to have pleiotropic effects on cells. Here we demonstrate that treatment of HeLa cells with low concentrations of CsA (but not of FK506) induces the synthesis of a stress protein, GRP78, located inside the endoplasmic reticulum. High concentrations of CsA lead to a general decrease in protein synthesis. When cells are stressed (heat-shocked) during the CsA treatment, the synthesis of heat shock proteins is reinforced. FK506 has no detectable effects at any concentration. The mechanism of induction of GRP78 by CsA remains presently unknown. Whatever the mechanism involved, GRP78 overexpression might be responsible for some of the physiological effects of CsA.     

Secretory proteins in the reproductive tract of the snapping turtle, Chelhydra serpentina

SDS-polyacrylamide gel electrophoresis was used to separate the secretory proteins produced by the epithelial and endometrial glands of the uterine tube and uterus in the snapping turtle Chelydra serpentina. The proteins were analyzed throughout the phases of the reproductive cycle from May to August, including preovulatory, ovulatory, postovulatory or luteal, and vitellogenic phases. The pattern of secretory proteins is quite uniform along the length of the uterine tube, and the same is true of the uterus, but the patterns for uterine tube and uterus are clearly different. We identify 13 major proteins in C. serpentina egg albumen. Bands co-migrating with 11 of these are found in the uterine tube, but at most 4 are found in the uterus, suggesting that the majority of the albumen proteins are most likely secreted in the uterine tube, not in the uterus. Although some of the egg albumen proteins are present in the uterine tube only at the time of ovulation, most of the bands corresponding to albumen proteins are present throughout the breeding season even though the snapping turtle is a monoclutch species. These results suggest that the glandular secretory phase in the uterine tube is active and quite homogeneous in function regardless of location or phase of the reproductive cycle.     

Using computational modeling to investigate sperm navigation and behavior in the female reproductive tract

The processes by which individual sperm cells navigate the length and complexity of the female reproductive tract and then reach and fertilize the oocyte is fascinating. Numerous complex processes potentially influence the transport of spermatozoa within the tract, resulting in a regulated supply of spermatozoa to the oocytes at the site of fertilization. Despite significant differences between species, breeds, and individuals, these processes converge to ensure that a sufficient number of high quality spermatozoa reach the oocytes, resulting in successful fertilization without a significant risk of polyspermy. Different factors, such as the physical complexity of the oviductal environment, changing swimming patterns, capacitation, chemotactic and thermotactic attraction, attachment and detachment from the oviductal epithelium, interactions with local oviductal secretions, individual variations in spermatozoa and subpopulations, peristaltic contractions, and the movement of fluid have all been theorized to influence the transport of spermatozoa to the site of fertilization. However, the predominance of each factor is not fully understood. Computational modeling provides a useful method for combining knowledge about the individual processes in complex systems to help understand the relative significance of each factor. The process of constructing and validating an agent-based computational model of sperm movement and transport within the oviductal environment is described in this report. Spermatozoa are modeled as individual cells with a set of behavioral rules defining how they interact with their local environment and regulate their internal state. The inclusion or potential exclusion of each factor is discussed, along with problems identifying parameters and defining behavioral rules from available literature. Finally, the benefits and limitations of the model are described.     

糖调节蛋白78抗四氯化碳诱导的人HepG2细胞脂肪合成

为研究糖调节蛋白78（glucose regulated protein 78, GRP78）对肝细胞脂肪变性的影响,采用四氯化碳（carbon tetrachloride, CCl₄）刺激人肝癌HepG₂细胞,油红O染色证实,CCl₄作用HepG₂细胞后,细胞浆中脂肪颗粒明显增加,同时固醇调节元件结合蛋白1(sterol regulatory element binding protein 1, SREBP-1)蛋白水平和3羟3甲基戊二酸单酰CoA还原酶（HMGCoA还原酶）mRNA水平分别为对照组的1.55倍和1.70倍.构建人GRP78启动子荧光素酶报告基因载体pGL3/hGRP78P转染人肝癌HepG₂细胞后,结果发现,CCl₄促进GRP78基因转录,转录活性为诱导前的1.92倍. 构建人GRP78 RNAi沉默质粒pSuper/GRP78转染人肝癌HepG₂细胞后,该质粒能特异性沉默内源性GRP78;内源性GRP78沉默后的人肝癌HepG₂细胞经CCl₄诱导, HMGCoA还原酶mRNA和SREBP-1蛋白的表达较对照组进一步升高,分别为对照组的1.48倍和2.38倍;人肝癌HepG₂细胞GRP78的体外过表达能降低CCl₄介导的HMGCoA还原酶mRNA和SREBP-1蛋白诱导表达,分别为对照组的78.5％和51.5％;油红O染色进一步证实,GRP78过表达可明显减少脂肪颗粒在HepG2细胞浆中的集聚.综上表明,GRP78可抑制CCl₄的SREBP-1和HMGCoA还原酶的诱导表达以及HepG₂细胞脂肪变性,提示GRP78的表达增加在肝细胞脂肪变性损伤过程中具有潜在的保护作用.     

葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的差异表达

为探讨葡萄糖调节蛋白GRP78和GRP94在小鼠脑发育过程中的生物学意义,利用蛋白质免疫印迹、免疫荧光及RNA印迹技术,检测了发育不同时期小鼠脑组织中GRP78、GRP94的表达及分布情况.结果显示:小鼠脑发育过程中GRP78、GRP94的表达在时间和空间上呈现出显著差异,在脑发育的早中期GRP78表达水平高于GRP94,随发育的进程GRP78不断下降而GRP94逐渐升高,至胚胎发育晚期GRP94表达水平高于GRP78.在E16.5的不同脑区,GRP78的表达呈现出从端脑到后脑逐渐递减的“浓度梯度”分布,而GRP94在不同脑区中表达相同.小鼠出生后,二者作为应激蛋白在脑组织中的表达没有明显的差异性.免疫荧光结果显示,GRP78和GRP94在大脑组织中的分布基本相同,神经细胞和神经胶质细胞的细胞质均有分布.这些观察得到的结果提示,GRP78和GRP94与神经细胞分化和脑的形态建成有关,它们分别在脑发育的不同时期起作用.