Extracellular Roles for the Molecular Chaperone,HSP90

Heat shock proteins (hsps) are versatile molecular chaperones that are responsiblefor many cellular functions including proper folding, oligomeric assembly, activation,and transport of proteins. Most of the known roles for hsps involve intracellular proteinsand processes. Mounting evidence suggests that hsps are present and function in theextracellular space. Hsp90 alpha was recently found on the surface and in conditionedmedia of HT-1080 fibrosarcoma cells. Here it acts as a molecular chaperone that assistsin the activation of matrix metalloproteinase-2 (MMP2), leading to increased tumorinvasiveness. Few other extracellular substrates of hsp90 have been identified, butseveral independent observations of extracellular hsp90 suggest that this protein may beimportant for both normal physiology and disease states. Hsp90 typically works in acomplex of associated proteins, and some of these proteins have also been observedextracellularly. Here we show that some of these components, including hsp90organizing protein (hop) and p23, are also found in HT-1080 conditioned mediasupporting the notion that hsp90 complexes function in invasiveness. These findingssuggest a wide-ranging phenomenon of extracellular molecular chaperoning that couldhave implications for biological processes and disease.     

Hsp70B' regulation and function

Heat shock protein (Hsp) 70B' is a human Hsp70 chaperone that is strictly inducible, having little or no basal expression levels in most cells. Using siRNAs to knockdown Hsp70B' and Hsp72 in HT-29, SW-480, and CRL-1807 human colon cell lines, we have found that the two are regulated coordinately in response to stress. We also have found that proteasome inhibition is a potent activator of Hsp70B'. Flow cytometry was used to assay Hsp70B' promoter activity in HT-29eGFP cells in this study. Knockdown of both Hsp70B'- and Hsp72-sensitized cells to heat stress and increasing concentrations of proteasome inhibitor. These data support the conclusion that Hsp72 is the primary Hsp70 family responder to increasing levels of proteotoxic stress, and Hsp70B' is a secondary responder. Interestingly ZnSO4 induces Hsp70B' and not Hsp72 in CRL-1807 cells, suggesting a stressor-specific primary role for Hsp70B'. Both Hsp70B' and Hsp72 are important for maintaining viability under conditions that increase the accumulation of damaged proteins in HT-29 cells. These findings are likely to be important in pathological conditions in which Hsp70B' contributes to cell survival.     

Hsp70B' regulation and function

Heat shock protein (Hsp) 70B' is a human Hsp70 chaperone that is strictly inducible, having little or no basal expression levels in most cells. Using siRNAs to knockdown Hsp70B' and Hsp72 in HT-29, SW-480, and CRL-1807 human colon cell lines, we have found that the two are regulated coordinately in response to stress. We also have found that proteasome inhibition is a potent activator of hsp70B'. Flow cytometry was used to assay hsp70B' promoter activity in HT-29eGFP cells in this study. Knockdown of both Hsp70B' and Hsp72 sensitized cells to heat stress and increasing concentrations of proteasome inhibitor. These data support the conclusion that Hsp72 is the primary Hsp70 family responder to increasing levels of proteotoxic stress, and Hsp70B' is a secondary responder. Interestingly ZnSO4 induces Hsp70B' and not Hsp72 in CRL-1807 cells, suggesting a stressor-specific primary role for Hsp70B'. Both Hsp70B' and Hsp72 are important for maintaining viability under conditions that increase the accumulation of damaged proteins in HT-29 cells. These findings are likely to be important in pathological conditions in which Hsp70B' contributes to cell survival.     

Extracellular heat shock protein (Hsp)70 and Hsp90α assist in matrix metalloproteinase-2 activation and breast cancer cell migration and invasion

Breast cancer is second only to lung cancer in cancer-related deaths in women, and the majority of these deaths are caused by metastases. Obtaining a better understanding of migration and invasion, two early steps in metastasis, is critical for the development of treatments that inhibit breast cancer metastasis. In a functional proteomic screen for proteins required for invasion, extracellular heat shock protein 90 alpha (Hsp90α) was identified and shown to activate matrix metalloproteinase 2 (MMP-2). The mechanism of MMP-2 activation by Hsp90α is unknown. Intracellular Hsp90α commonly functions with a complex of co-chaperones, leading to our hypothesis that Hsp90α functions similarly outside of the cell. In this study, we show that a complex of co-chaperones outside of breast cancer cells assists Hsp90α mediated activation of MMP-2. We demonstrate that the co-chaperones Hsp70, Hop, Hsp40, and p23 are present outside of breast cancer cells and co-immunoprecipitate with Hsp90α in vitro and in breast cancer conditioned media. These co-chaperones also increase the association of Hsp90α and MMP-2 in vitro. This co-chaperone complex enhances Hsp90α-mediated activation of MMP-2 in vitro, while inhibition of Hsp70 in conditioned media reduces this activation and decreases cancer cell migration and invasion. Together, these findings support a model in which MMP-2 activation by an extracellular co-chaperone complex mediated by Hsp90α increases breast cancer cell migration and invasion. Our studies provide insight into a novel pathway for MMP-2 activation and suggest Hsp70 as an additional extracellular target for anti-metastatic drug development.     

Cell number-dependent regulation of Hsp70B' expression: evidence of an extracellular regulator

Hsp70B' is a unique member of the human Hsp70 family of chaperones about which information is scarce. Unlike the major inducible Hsp72 protein, Hsp70B' is strictly inducible having little or no basal expression levels in most cells. We observed that Hsp70B' appears transiently in response to heat stress whereas Hsp72 levels persist for many days. Also, Hsp70B' is optimally induced when cell numbers are low, whereas Hsp72 levels are greatest at higher cell number. Hsp70B' promoter activation was measured by flow cytometry using an Hsp70B' promoter-driven GFP construct. In heat stressed cells, promoter activation is cell number independent over a broad range. However, when cell number increases beyond a certain population size, cells are less stress inducible for Hsp70B' and induction becomes highly cell number-dependent. Cell number differences in Hsp70 activation cannot be explained by changes in Hsf-1 DNA-binding activity or hyperphosphorylation. Cells with few or no cell matrix attachments (laminin-coated and low attachment plates, respectively) appear to be more sensitive to cell number-dependent inhibition. Medium conditioned by the low cell number (LCN) populations supports increased Hsp70B' promoter activation in high cell number (HCN) cultures. Likewise, medium conditioned in HCN culture conditions causes decreased activation of Hsp70B' promoter in LCN cultures. As HCN-conditioned medium has all the components necessary for cell growth, two possibilities for the activation of Hsp70B' gene expression exist: an inhibitory component that accumulates in culture medium at HCN, or an activator that accumulates at LCN.     

Surface expression of Hsp70B’ in response to proteasome inhibition in human colon cells

Hsp70B’ was expressed on the surface of HT-29 and CRL-1809 but not SW-480 human colon cell lines in response to proteasome inhibition as detected using flow cytometry. Surface expression was not detected under non-stress conditions nor was heat shock an inducer of surface expression in the three cell lines tested. Phylogenetic analysis indicated that the Hsp70B’ protein sequence was most closely related to another major inducible human Hsp70, Hsp72. Hsp70B’ appeared to be recently diverged, as homologs for Hsp70B’ have not been found in rodents. Hsp72 and Hsp70B’ shared 100% amino acid sequence identity in their predicted peptide-binding regions suggesting that they bind the same peptide substrates, perhaps in extracellular antigen presentation. Amino acid sequence differences were concentrated in the lid regions and the C-terminal domains raising the possibility that Hsp72 and Hsp70B’ bind different co-chaperones or cell surface receptors.     

Purification of human tumor cell autocrine motility factor and molecular cloning of its receptor.

Tumor autocrine motility factor (AMF) has been detected in and purified from serum-free conditioned medium of human HT-1080 fibrosarcoma cells. Under nonreducing conditions, AMF migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single band of 55 kDa but under reducing conditions as a band of 64 kDa. Two-dimensional polyacrylamide gel electrophoresis of the purified AMF resolved two groups of polypeptides with isoelectric points of 6.1 and 6.2 (majors), 6.35 and 6.4 (minors). Purified AMF stimulated HT-1080 cell migration in a dose-dependent fashion. The motility stimulation of the fibrosarcoma cells with AMF is associated with the phosphorylation of the AMF receptor, a 78-kDa cell surface glycoprotein (gp78), suggesting protein kinase participation in migratory signal transduction. The gene encoding gp78 was cloned from an HT-1080 fibrosarcoma complementary DNA library. The deduced sequence encodes a polypeptide of 323 amino acids. The nucleotide and predicted amino acid sequence of the gp78 reveals significant homology with the human suppressor/oncogene p53 protein.     

Effect of corticosteroids on nitric oxide production in inflammatory bowel disease: are leukocytes the site of action?

Nitric oxide (NO) production is increased in the human colonic mucosa in intestinal inflammation. We examined the effect of corticosteroids and the role of mononuclear cells in this production. Colonic biopsies from patients with ulcerative colitis and normal controls were cultured with either budesonide or prednisolone in the presence of proinflammatory cytokines. Human mixed mononuclear cells (MMCs) were cocultured with HT-29 cells stimulated with IFN-gamma and LPS in the presence or absence of corticosteroids. Nitrite production was measured in supernatants by a modification of the Griess reaction, and inducible NO synthase (iNOS) mRNA expression was studied in colonic tissue by RT-PCR. Both steroids significantly suppressed the nitrite production and iNOS mRNA expression in inflamed colonic biopsies from ulcerative colitis patients and in cytokine-stimulated normal colonic biopsies but not in cytokine-stimulated HT-29 cells. Nitrite production by HT-29 cells was significantly increased (P < 0.01) in cocultures with MMCs stimulated with IFN-gamma and LPS. The presence of either prednisolone or budesonide significantly (P < 0.01) suppressed nitrite production from cocultures of HT-29 cells and MMCs but not from cultures of HT-29 cells stimulated with conditioned media from activated MMCs. Interestingly, stimulation of HT-29 with conditioned media from MMCs pretreated with steroids before stimulation with LPS and IFN-gamma induced a significantly (P < 0.01) lower nitrite production. These results suggest that the inhibitory effect of corticosteroids on the NO production in the intestinal inflammation might be via the inhibition of MMC-produced mediators responsible for NO production by colonic epithelial cells.     

癌基因Src在骨肉瘤细胞侵袭伪足形成中的作用

目的:探讨癌基因Src在体外培养骨肉瘤细胞侵袭伪足形成中的作用。方法:构建Src sh RNA慢病毒表达载体,在HEK293T细胞中包装慢病毒,感染HT-1080骨肉瘤细胞,经嘌呤霉素加压筛选,获得稳定沉默Src基因的骨肉瘤细胞系HT-1080-sh Src;实时定量PCR和Western Blot法检测基因沉默效率;采用原位明胶酶谱法检测侵袭伪足形成;采用侵袭小室实验检测下调Src基因表达对HT-1080细胞侵袭力的影响。结果:成功构建稳定沉默Src基因的骨肉瘤细胞系HT-1080-sh Src及对照细胞系HT-1080-shluc,经实时定量PCR和Western Blot检测,与对照细胞系相比,HT-1080-sh Src细胞中Src基因表达下调3倍以上;下调HT-1080细胞中Src基因表达能显著抑制HT-1080细胞侵袭伪足形成及其对细胞外基质的降解能力;下调Src基因表达能显著抑制骨肉瘤细胞侵袭力。结论:癌基因Src参与调节骨肉瘤细胞HT-1080侵袭伪足形成,促进肿瘤侵袭、转移。     

Extracellular heat shock protein 70 mediates heat stress-induced epidermal growth factor receptor transactivation in A431 carcinoma cells

The initial steps of heat stress in A431 cells were previously characterized by ligand-independent EGFR transactivation via an unknown mechanism and concomitant secretion of Hsp70. In this work we demonstrate that the depletion of Hsp70 from the conditioned medium of heated cells abolishes EGFR transactivation indicating that secreted Hsp70 is essential for EGFR transactivation during heat shock. This notion is supported by the findings that purified Hsp70 can induce EGFR transactivation and the activation of EGFR-dependent signaling pathways. Both heat stress and pure Hsp70 stimulate activation of TLR2/4 and their association with EGFR. These results suggest that the secreted Hsp70 mediates the cross-communication of TLR and EGFR signaling systems in A431 cells.     

The high-affinity binding of laminin to cells. Assignation of a major cell-binding site to the long arm of laminin and of a latent cell-binding site to its short arms

The laminin proteolytic fragments 1 (derived from the intersection of the short arms of the cruciform laminin molecule) and 8 (derived from the laminin long arm) bind to distinct receptors on HT-1080 human fibrosarcoma cells; both fragments are shown here to inhibit the high-affinity binding of laminin to these cells. Inhibition of binding between fragment 8 and laminin was competitive, whereas that between fragment 1 and laminin was noncompetitive. This indicates that laminin and fragment 8 most probably share the same cellular receptors, whereas laminin and fragment 1 bind to distinct receptors, inhibition being due to steric hindrance. Surprisingly, fragment 1-4 (corresponding to the complete short arms of laminin) neither bound to HT-1080 cells nor inhibited the binding of laminin or fragment 1. After treatment of fragment 1-4 with pepsin, however, the smaller subfragment 1 was liberated, which could then bind to the cells, and so was shown to block the binding of laminin and fragment 1. We conclude that native laminin bound to HT-1080 cells via the fragment-8-binding site near the end of its long arm. Although these cells also have distinct receptors for the short arm fragment 1, this receptor-binding site was not used as it appeared to be latent within the native laminin molecule.     

Role of scavenger receptors in the binding and internalization of heat shock protein 70

Extracellular heat shock protein 70 (Hsp70) exerts profound effects both in mediating tumor rejection by Hsp70-based vaccines and in autoimmunity. Further progress in this area, however, awaits the identification of the cell surface receptors for extracellular Hsp70 that mediate its immune functions. We have examined a wide range of candidate Hsp70 receptors and find significant binding through two main families of cell surface proteins, including 1) the scavenger receptor (SR) family and 2) C-type lectins of the NK family. In addition, given that the anticancer effects of Hsp70 vaccines have been shown to involve uptake of Ags by APC exposed to Hsp70-tumor Ag complexes, we have examined the ability of the receptors identified here to internalize Hsp70-peptide complexes. Our findings indicate that three members of the SR family (lectin-like oxidized low density lipoprotein receptor 1; fasciclin, epidermal growth factor-like, laminin-type epidermal growth factor-like, and link domain-containing scavenger receptor-1; and SR expressed by endothelial cells-1) are able to bind Hsp70-peptide complexes and mediate its efficient internalization. Indeed, each of the SR was able to mediate efficient uptake of Hsp70 when transfected into Chinese hamster ovary cells previously null for uptake. Curiously, Hsp70 internalization occurs independently of the intracellular domains of the SR, and Hsp70 uptake could be detected when the entire intracellular domain of lectin-like oxidized low density lipoprotein receptor 1 or SR expressed by endothelial cells-1 was truncated. The existence of a wide repertoire of cell surface Hsp70-binding structures may permit intracellular responses to extracellular Hsp70 that are cell specific and discriminate between Hsp70 family members.     

Differential effects of trichostatin A on gelatinase A expression in 3T3 fibroblasts and HT-1080 fibrosarcoma cells: implications for use of TSA in cancer therapy

Trichostatin A (TSA) is a histone deacetylase (HDAC) inhibitor with potential in cancer therapeutics. In a recent communication, we demonstrated that TSA is a selective, potent inhibitor of gelatinase A in 3T3 fibroblasts. In the present study, we extend these observations and examine the effects of TSA in 3T3 fibroblasts compared to HT-1080 fibrosarcoma cells with respect to gelatinase A expression, cell viability, and apoptosis. We find that while expression of gelatinase A in 3T3 fibroblasts is exquisitely sensitive to inhibition by TSA, expression of this enzyme in HT-1080 cells is minimally affected by this compound. Moreover, we show that TSA is pro-apoptotic in HT-1080 cells, but is anti-apoptotic in 3T3 cells. We propose a two-pronged model for the therapeutic action of TSA. On the one hand TSA selectively decreases cancer cell viability, while enhancing the viability of stromal cells. On the other hand, by selectively decreasing gelatinase A expression in stromal but not cancer cells, TSA acts to control metastatic potential by reducing the ability of metastatic cells to recruit stromal cells to secrete gelatinase A.