- HSP60
Heat shock proteins are generally responsible for preventing damage to proteins in response to high levels of heat.Heat shock proteins are classified into six major families based on their molecular mass: small HSPs, HSP40, HSP60, HSP70, HSP90, and HSP110Heat shock protein 60 (HSP60) is a
mitochondria lchaperonin that is typically held responsible for the transportation and refolding of proteins from thecytoplasm into themitochondrial matrix . In addition to its role as a heat shock protein, HSP60 functions as a chaperonin to assist in folding linearamino acid chains into their respective three-dimensional structure. Through the extensive study ofgroEL , HSP60’sbacteria homolog, HSP60 has been deemed essential in the synthesis and transportation of essential mitochondrial proteins from the cell's cytoplasm into the mitochondrial matrix. Further studies have linked HSP60 todiabetes , stress response,cancer and certain types ofimmunological disorders.Hsp60’s Discovery
Not much is known about the function of HSP60.
Mammal ian HSP60 was first reported as a mitochondrial P1 protein. It was subsequentlycloned andsequenced byRadhey Gupta and coworkers. The amino acid sequence showed a strong homology toGroEL . It was initially believed that HSP60 functioned only in themitochondria and that there was no equivalent protein located in thecytoplasm . Recent discoveries have discredited this claim and have suggested that there is a recognizable difference between HSP60 in the mitochondria and in the cytoplasm. . Itoh, H; Komatsuda, A; Ohtani, H; Wakui, H; Imai, H; Sawada, K, Otaka, M; Ogura M; Suzuki, A; Hamada, F. Mammalian HSP60 is quickly sorted into the mitochondria under conditions of dehydration. "Eur. J. Biochem". 269, 5931-5938, 2002..] A similar protein structure exists in thechloroplast of certain plants. This protein presence provides evidence for the evolutionary relationship of the development of the mitochondria and the chloroplast by means ofendosymbiosis . Gupta, RS. Evolution of chaperonin families (HSP60, HSP10, and TCP-1) of proteins and the origin of eukaryotic cells. "Molecular Microbiology" 15, 1-11, 1995.]tructure
Under normal physiological conditions, HSP60 is a 60 kilodalton oligomer composed of monomers that form a complex arranged as two stacked heptameric rings. Cheng, MY; Hartl, FU; Horwich, AL. The mitochondrial chaperonin HSP60 is required for its own assembly. "Nature" 348: 455- 458; 1990.] . This double ring structure forms a large central cavity in which the unfolded protein binds via
hydrophobic interactions. Fenton, WA. Residues in chaperonin GroEL required forpolypeptide binding and release. "Nature" 371, 614-619; 1994.] This structure is typically in equilibrium with each of its individual components: monomers, heptamers, and tetradeceamers. Habich, C; Burkart, V. Heat shock protein 60: regulatory role on innate immune cells. "Cell Mol. Life Sci." 64, 742-751, 2007.] Recent studies have begun to suggest that in addition to its typical location in the mitochondria, HSP60 can also be found in the cytoplasm under normal physiological conditions.Each subunit of HSP60 has three
domains : the apical domain, the equatorial domain, and the intermediate domain. The equatorial domain contains the binding site for ATP and for the other heptameric ring. The intermediate domain binds the equatorial domain and the apical domain together.Ranford, JC; Coates, AR; Henderson, B. Chaperonins are cell-signalling proteins: the unfolding biology of molecular chaperones. "Expert Reviews in Molecular Medicine". 1-17, 2000] The intermediate domain induces a conformational change when ATP is bound allowing for an alternation between thehydrophilic andhydrophobic substrate binding sites. In its inactive state, the protein is in a hydrophobic state. When activated by ATP, the intermediate domain undergoes a conformational change that exposes the hydrophilic region. This insures fidelity in protein binding.Chaperonin 10 aids HSP60 in folding by acting as a dome-like cover on the ATP active form of HSP60. This causes the central cavity to enlarge and aids in protein folding. See the above figure for further detail on the structure.The mitochondrial HSP60
sequence contains a series of G repeats at theC-terminal . The structure and function of this sequence is not quite known. TheN-terminal contains a leader sequence of hydroxylatedamino acids , namelyarginine ,lysine ,serine , andthreonine , which serve as directors for the importation of the protein into the mitochondria.The predicted structure of HSP60 includes several vertical
sine waves ,alpha helices ,beta sheets , and 90 degree turns. There are regions ofhydrophobicity where the protein presumably spans themembrane . There are also three N-linked glycosylation sites at positions 104, 230, 436. The sequence and secondary structure for the mitochondrial protein are illustrated in the above image obtained from the Protein Data Bank.Newer information has begun to suggest that the HSP60 found in the mitochondria differs from that of the cytoplasm. With respect to the amino acid sequence, the cytoplasmic HSP60 has an N-terminal sequence not found in the mitochondrial protein. In
gel electrophoresis analysis, significant differences were found in the migration of cytoplasmic and mitochondrial HSP60. The cytoplasmic HSP60 contains asignal sequence of 26amino acids on the N terminus. This sequence is highly degenerate and is capable of folding intoamphiphilic helix .Antibodies against HSP60 targeted both the mitochondrial and cytoplasmic form. Nonetheless, antibodies against the signal sequence targeted only the cytoplasmic form. Under normal physiological condition, both are found in relatively equal concentrations. In times of stress or high need of HSP60 in either the cytoplasm or the mitochondria, the cell is capable for compensating by increasing the presence of HSP60 in one compartment and decreasing its concentration in the opposite compartment.
=Function=Common Features
Heat shock proteins are amongst the most
evolution arily conserved of proteins. The significant function, structural, and sequential homology between HSP60 and its prokaryotic homolog, groEL, demonstrates this level of conservation. Moreover, HSP60’s amino acid sequence bears a similarity to its homolog inplants ,bacteria , andhumans . Johnson, RB; Fearon, K; Mason, T; Jindal, S. Cloning and characterization of the yeast chaperonin HSP60 gene. "Gene" 84: 295-302, 2003] Heat shock proteins are primarily responsible for maintaining the integrity of cellular proteins particularly in response to environmental changes. Stresses such a temperature, concentration imbalance, pH change, and toxins can all induce heat shock proteins to maintain the conformation of the cell’s proteins. HSP60 constitutes approximately 15-30% of all cellular proteins. In additional to HSP60’s typical role as a heat shock protein, studies have shown that HSP60 plays an important role in thetransport and maintenance of mitochondrial proteins as well as the transmission andreplication of mitochondrialDNA .Mitochondrial Protein Transport
HSP60 possesses two main responsibilities with respect to mitochondrial protein transport. It functions to
catalyze the folding of proteins destined for the matrix and maintains protein in an unfolded state for transport across the inner membrane of the mitochondria. Koll, H; Guiard, B; Rassow; J; Ostermann, J; Horwich, A; Neupert, W; Hartl, FU. Antifolding Activity of HSP60 Couples Protein Import into the Mitochondrial Matrix with Export to the Intermembrane Space. "Cell" 68, 1163-1175, 1992.] Many proteins are targeted for processing in the matrix of the mitochondria but then are quickly exported to other parts of the cell. The hydrophobic portion HSP60 is responsible for maintaining the unfolded conformation of the protein for transmembrane transport. Studies have shown how HSP60 binds to incoming proteins and induces conformational and structural changes. Subsequent changes in ATP concentrations hydrolyze the bonds between the protein and HSP60 which signals the protein to exit the mitochondria. HSP60 is also capable of distinguishing between proteins designated for export and proteins destined to remain in the mitochondrial matrix by looking for an amphilic alpha-helix of 15-20 residues. The existence of this sequence signals that the protein is to be exported while the absence signals that the protein is to remain in the mitochondria. The precise mechanism is not yet entirely understood.DNA Metabolism
In addition to its critical role in protein folding, HSP60 is involved in the replication and transmission of
mitochondrial DNA . In extensive studies of HSP60 activity in "Saccharomyces cerevisiae", scientists have proposed that HSP60 binds preferentially to the single strandedtemplate DNA strand in a tetradecamer like complex Kaufman, BA. Studies on mitochondria DNA nucleoids in Saccharomyces cerevisia: identification of bifunctional proteins. "In Genetics and Development", UT Southwestern Medical Center at Dallas, Dallas, TX. 241pp.] This tetradecamer complex interacts with other transcriptional elements to serve as a regulatory mechanism for the replication and transmission of mitochondrial DNA. Mutagenic studies have further supported HSP60 regulatory involvement in the replication and transmission of mitochondrial DNA. Kaufman, BA; Kolesar, JE; Perlman, PS; Butow, RA. A function for the mitochondrial chaperonin HSP60 in the structure and transmission of mitochondrial DNA nucleoids in Saccharomyces cerevisiae. "J Cell Biology" 163: 457-461, 2003.]Mutations in HSP60 increase the levels of mitochondrial DNA and result in subsequent transmission defects.Differences between Cytoplasmic and Mitochondrial HSP60
In addition to the already illustrated structural differences between cytoplasmic and mitochondrial HSP60, there are marked functional differences. Studies have suggested that HSP60 plays a key role in preventing
apoptosis in the cytoplasm. The cytoplasmic HSP60 forms a complex with proteins responsible for apoptosis and regulates the activity of these proteins. The cytoplasmic version is also involved inimmune response andcancer . These two aspects will be elaborated on later. Extremely recent investigations have begun to suggest a regulatory correlation between HSP60 and the glycolytic enzyme, 6-phosphofructokinase-1 . Although not much information is available, cytoplasmic HSP60 concentrations have influenced the expression of 6-phosphofructokinase inglycolysis . Koll, H; Guiard, B; Rassow; J; Ostermann, J; Horwich, A; Neupert, W; Hartl, FU. Antifolding Activity of HSP60 Couples Protein Import into the Mitochondrial Matrix with Export to the Intermembrane Space. "Cell" 68, 1163-1175, 1992.] Despite these marked differences between the cytoplasmic and mitochondrial form, experimental analysis has shown that the cell is quickly capable of moving cytoplasmic HSP60 into the mitochondria if environmental conditions demand a higher presence of mitochondrial HSP60.ynthesis and Assembly
HSP60 is typically found in the mitochondria and has been found in organelles of endosymbiotic origin. HSP60 monomers form two heptameric rings that bind to the surface of linear proteins and catalyze their folding in an ATP dependent process. Itoh, H; Komatsuda, A; Ohtani, H; Wakui, H; Imai, H; Sawada, K, Otaka, M; Ogura M; Suzuki, A; Hamada, F. Mammalian HSP60 is quickly sorted into the mitochondria under conditions of
dehydration . "Eur. J. Biochem". 269, 5931-5938, 2002.] HSP60 subunits are encoded by nucleargenes and translated into the cytosol. These subunits then move into the mitochondria where they are processed by other HSP60 molecules. Several studies have shown how HSP60 proteins must be present in the mitochondria for the synthesis and assembly of additional HSP60 components. There is a direct positive correlation between the presence of HSP60 proteins in the mitochondria and the production of additional HSP60 protein complexes.The
kinetics of assembly of HSP60 subunits into the 2-hepatmeric rings takes two minutes. The subsequentprotease -resistant HSP60 is formed in a half-time of 5-10 minutes. This rapid synthesis indicates that there is an ATP-dependent interaction where the formed HSP60 complex stabilizes the intermediate of the HSP60 assembly complex, effectively serving as a catalyst. The necessity of preexisting HSP60 in order to synthesize additional HSP60 molecules supports theendosymbiotic theory of the origin ofmitochondria . There must have been a rudimentary prokaryotic homologous protein that was capable of similar self-assembly.Immunological Role
As discussed above, HSP60 has generally been known as a chaperonin which assists in protein folding in mitochondria. However, some new research has indicated that HSP60 possibly plays a role in a “danger signal cascade”
immune response . Hansen, Jens J., Bross, Peter, Westergaard, Majken, Nielsen, Marit N., Eiberg, Hans, Borglum, Anders D., Mogensen, Jens, Kristiansen, Karsten, Bolund, Lars, and Niels Gregersen. "Genomic structure of the human mitochondrial chaperonin genes: HSP60 and HSP10 are localized head to head on chromosome 2 separated by a bidirectional promoter." "Human Genetics" 112 (2003): 71-77] There is also mounting evidence that it plays a role inautoimmune disease.Infection anddisease are extremely stressful on the cell. When a cell is under stress, it naturally increases the production of stress proteins, includingheat shock proteins such as HSP60. In order for HSP60 to act as a signal it must be present in theextracellular environment. In recent research “it has emerged that…chaperonin 60 can be found on the surface of variousprokaryotic andeukaryotic cells, and can even be released from cells”.Ranford, Julia C., Anthony R. Coates, and Brian Henderson. "Chaperonins are Cell-Signalling Proteins: the Unfolding Biology of Molecular Chaperones." "Molecular Medicine" (2000): 1-17.] According to recent research, many different types ofheat shock proteins are used inimmune response signaling, but it appears that different proteins act and respond differently to other signaling molecules. HSP60 has been shown to be released from specific cells likeperipheral blood mononuclear cells (PBMCs) when there arelipopolysaccharides (LPS) orGroEL present. This suggests that the cell has different receptors and responses to human and bacterial HSP60 . In addition, it has been shown that HSP60 has the capability “of activatingmonocytes ,macrophages anddendritic cells…and also of inducing secretion of a wide range ofcytokines .” The fact that HSP60 responds to other signal molecules like LPS or GroEL and has the ability to activate certain types of cells supports the idea that HSP60 is part of a danger signal cascade which is involved in activating an immune response.There is however, a twist in the immunological role of HSP60. As mentioned above, there are two different types of HSP60 proteins, bacterial as well as mammalian. Since they are very similar in sequence, bacterial HSP60 wouldn’t be expected to cause a large immune response in humans. The immune system is “designed to ignore ‘self’, that is, host constituents; however, paradoxically, this is not the case with chaperonins”. It has been found that many anti-chaperonin antibodies exist and are associated with many autoimmune diseases. According to Ranford, et al experiments have been performed which have shown that
antibodies which are “generated by a human host after exposure to bacterial chaperonin 60 proteins” can cross-react with human chaperonin 60 proteins. Bacterial HSP60 is causing the immune system to create anti-chaperonin antibodies, even though bacterial and human HSP60 have similar protein sequences. These new antibodies are then recognizing and attacking human HSP60 which causes an autoimmune disease. This suggests that HSP60 may play a role inautoimmunity , however more research needs to be done in order to discover more completely its role in this disease.tress Response
HSP60, as a mitochondrial protein, has been shown to be involved in
stress response as well. The heat shock response is ahomeostatic mechanism that that protects cell from damage by upregulating the expression of genes that code for HSP60. Vargas-Parada, L; Solis, C. Heat Shock and stress response of Taenia solium and T. crassiceps. "Parasitology" (2001), 211 583-588.] The upregulation of HSP60 production allows for the maintenance of other cellular processes occurring in the cell, especially during stressful times. In one experiment, investigators treated various mice withDOPA and discovered significant upregulation of HSP60 expression in the mitochondria andHSP70 expression in the cytoplasm. Researchers concluded that the heat shock signal pathway serves as “the basic mechanism of defense against neurotoxicity elicited by free radical oxygen and nitrogen species produced in aging and neurodegenerative disorders” Vittorio Calabrese, Cesare Mancuso, Agrippino Ravagna, Marzia Perluigi, Chiara Cini, Carlo De Marco, D. Allan Butterfield, Anna Maria Giuffrida Stella (2007) In vivo induction of heat shock proteins in the substantia nigra following L-DOPA administration is associated with increased activity of mitochondrial complex I and nitrosative stress in rats: regulation by glutathione redox state "Journal of Neurochemistry" 101 (3), 709–717.] . Several studies have shown that HSP60 and other heat shock proteins are necessary for cellular survival under toxic or stressful circumstances. Rossi, M; Somji, S; Garrett, S; Sens, M; Nath, J; Sens, D. Expression of hsp 27, hsp 60, hsc 70, and hsp 70 Stress Response Genes inCultured Human Urothelial Cells (UROtsa) Exposed to Lethal and SublethalConcentrations of Sodium Arsenite. "Environmental Health Perspectives" (2002), Vol. 110 1225-1232]Relationship to Cancer
HSP60 has been shown to influence
apoptosis intumor cells which seems to be associated with a change in expression levels. There is some inconsistency in that some research shows a positive expression while other research shows a negative expression, and it seems to depend on the type of cancer. There are different hypotheses to explain the effects of positive versus negative expression. Positive expression seems to inhibit “apoptotic andnecrotic cell death” while negative expression is thought to play a part “in activation of apoptosis”. Cappello, Francesco, Di Stefano, Antonino, David, Sabrina, Rappa, Francesco, Anzalone, Rita, La Rocca, Giampiero, D’Anna, Silvestro E., Magno, Francesca, Donner, Claudio F., Balbi, Bruno and Giovanni Zummo. "HSP60 and HSP10 Down-Regulation Predicts Bronchial Epithelial Carcinogenesis in Smokers With Chronic Obstructive Pulmonary Disease." "Cancer" 107 (2006): 2417-2424.] Urushibara, Masayasu, Kageyama, Yukio, Akashi, Takumi, Yukihiro, Otsuka, Takizawa, Touichiro, Koike, Morio and Kazunori Kihara. "HSP60 may Predict Good Pathological Response to Neoadjuvant Chemoradiotherapy in Bladder Cancer." "Japanese Journal of Clinical Oncology" 37 (2007): 56-61.]As well as influencing apoptosis, HSP60 changes in expression level have been shown to be “useful new biomarkers for diagnostic and prognostic purposes.” According to Lebret et al., a loss of HSP60 expression “indicates a poor prognosis and the risk of developing tumor infiltration” specifically with bladder
carcinomas , but that does not necessarily hold true for other types of cancers. Lebret, Thierry, Watson, R. William G., Molinie, Vincent, O’Neill, Amanda, Gabriel, Christophe, Fitzpatrick, John M. and Henry Botto. "Heat Shock Proteins HSP27, HSP60, HSP70, and HSP90: Expression in Bladder Carcinoma." "Cancer" 98 (2003): 970-977.] For example,ovarian tumors research has shown that over expression is correlated with a better prognosis while a decreased expression is correlated with an aggressive tumor. All this research indicates that it may be possible for HSP60 expression to be used in predicting survival for certain types of cancer and therefore may be able to identify patients who could benefit from certain treatments.References
External links
* [http://www.nlm.nih.gov/cgi/mesh/2007/MB_cgi?mode=&index=17653&field=all&HM=&II=&PA=&form=&input= NIH Material on HSP60]
* [http://db.yeastgenome.org/cgi-bin/locus.pl?locus=HSP60 HSP60]
* [http://flybase.bio.indiana.edu/reports/FBgn0015245.html HSP60 in Flies]
* [http://www.abcam.com/index.html?t=6637&pt=1&c=710 HSP60 Antibodies]
* [http://biochem.uthscsa.edu/seale/Chap/chap.html The Chaperonin Home Page]
* [http://www.google.com/search?q=protein+data+bank&ie=utf-8&oe=utf-8&aq=t&rls=org.mozilla:en-US:official&client=firefox-a The Protein Data Bank]
* [http://www.brenda.uni-koeln.de/php/result_flat.php4?ecno=3.6.4.10 Enzyme Database on HSP60]
* [http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?CMD=search&DB=pubmed HSP60 on Pub Med]
* [http://rgd.mcw.edu/tools/genes/genes_view.cgi?id=621314 HSP60 Gene Report]*
Note
Submitted in fulfillment of the semesterly project for Biological Chemistry, BIOL-151, offered by the Department of
Biology atGeorgetown University for the Spring of 2007.
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