Sandbox Reserved 492: Difference between revisions
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== Cholix Toxin from ''Vibrio Cholerae ''== | == Cholix Toxin from ''Vibrio Cholerae ''== | ||
The [http://en.wikipedia.org/wiki/Crystal_structure crystal structure] of the purified form of ''' Cholix Toxin''' or '''CT''' was determined in 1995. <ref>[1] Zhang R, Scott D, Westbrook M, Nance S, Spangler B, Shipley G, Westbrook E (1995). "The three-dimensional crystal structure of cholera toxin". J Mol Biol 251 (4): 563–73. doi:10.1006/jmbi.1995.0456.PMID 7658473.</ref> It is an oligomeric bacterial protein found to be made up of six individual subunits. V. cholerae toxin, along with other similar bacterial enterotoxins seem to share an evolutionary conserved <scene name='Sandbox_Reserved_496/Secondary_structure/1'> secondary structure </scene> composition comprising of about 13 alpha-helices and 10-12 Beta-sheets. The protein is then further divided into one single A-subunit and 5 individual B- subunits.The A-subunit makes up what is known as the enzymatic portion of the protein while the 5 copies of the B-subunit are responsible for the binding to the ligand receptor. The toxin binds highly specifically and tightly to a [http://en.wikipedia.org/wiki/GM1_gangliosidoses GM1 gangliosides] on the surface of the host's cells. In this X-Ray Diffraction image we can see the <scene name='Sandbox_Reserved_496/Binding_site/1'>catalytic</scene> site, which in this case has been complexed with an allosteric inhibitor (red and yellow space filling atoms). Recent studies have indicated several amino acid <scene name='Sandbox_Reserved_496/Critical_amino_acids/2'> residues </scene> located proximally to the active site which are critical for enzymatic activity. Specifically, site directed mutagenesis indicated that when altered, the mutation results in a termination of the proteins toxicity, rendering it essentially harmless. | The [http://en.wikipedia.org/wiki/Crystal_structure crystal structure] of the purified form of ''' Cholix Toxin''' or '''CT''' was determined in 1995. <ref>[1] Zhang R, Scott D, Westbrook M, Nance S, Spangler B, Shipley G, Westbrook E (1995). "The three-dimensional crystal structure of cholera toxin". J Mol Biol 251 (4): 563–73. doi:10.1006/jmbi.1995.0456.PMID 7658473.</ref> It is an oligomeric bacterial protein found to be made up of six individual subunits. V. cholerae toxin, along with other similar bacterial enterotoxins seem to share an evolutionary conserved <scene name='Sandbox_Reserved_496/Secondary_structure/1'> secondary structure </scene> composition comprising of about 13 alpha-helices and 10-12 Beta-sheets. The protein is then further divided into one single A-subunit and 5 individual B- subunits.The A-subunit makes up what is known as the enzymatic portion of the protein while the 5 copies of the B-subunit are responsible for the binding to the ligand receptor. The toxin binds highly specifically and tightly to a [http://en.wikipedia.org/wiki/GM1_gangliosidoses GM1 gangliosides] on the surface of the host's cells. In this X-Ray Diffraction image we can see the <scene name='Sandbox_Reserved_496/Binding_site/1'>catalytic</scene> site, which in this case has been complexed with an allosteric inhibitor (red and yellow space filling atoms). Recent studies have indicated several amino acid <scene name='Sandbox_Reserved_496/Critical_amino_acids/2'> residues </scene> located proximally to the active site which are critical for enzymatic activity. Specifically, site directed mutagenesis indicated that when altered, the mutation results in a termination of the proteins toxicity, rendering it essentially harmless. | ||
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== '''Toxin Mechanism''' == | == '''Toxin Mechanism''' == | ||
Once secreted, the B subunit will bind to GM1 gangliosides on the surface. After ''binding'' takes place, the whole complex is engulfed by the cell and a portion known as the CTA1 chain is detached after reduction of a disulfide bridge. The new endosome is moved to the Golgi, where it is recognized by the endoplasmic reticulum, unfolded and delivered to the membrane, where the Endoplasmic Reticulum-oxidase - "'''Ero1'''" triggers the release of the excised A1 protein (through Oxidation) of '''protein disulfide isomerase complex'''. As A1 moves from the ER into the cytoplasm it refolds and avoids further reduction.[ | Once secreted, the B subunit will bind to GM1 gangliosides on the surface. After ''binding'' takes place, the whole complex is engulfed by the cell and a portion known as the CTA1 chain is detached after reduction of a disulfide bridge. The new endosome is moved to the Golgi, where it is recognized by the endoplasmic reticulum, unfolded and delivered to the membrane, where the Endoplasmic Reticulum-oxidase - "'''Ero1'''" triggers the release of the excised A1 protein (through Oxidation) of '''protein disulfide isomerase complex'''. As A1 moves from the ER into the cytoplasm it refolds and avoids further reduction. <ref> [2] O'Neal C, Jobling M, Holmes R, Hol W (2005). "Structural basis for the activation of cholera toxin by human ARF6-GTP". Science 309 (5737): 1093–6. doi:10.1126/science.1113398. PMID 16099990. </ref> | ||
The A1 fragment catalyses '''ADP ribosylation''' from NAD to the regulatory component (G-protein) of adenylate cyclase, two main components in an important signal transduction pathway. The newly formed A1-Gαs complex is then unable to hydrolyse properly leaving the GTP bound to the Gαs subunit, which results in the transducer being continually activated. Increased adenylate cyclase activity increases cyclic AMP (cAMP concentration increases more than 100 times normal concentrations) synthesis. This can cause rapid fluid loss from the intestines, up to 2 liters per hour,<ref> [3] Joaquín Sánchez, Jan Holmgren (February 2011). [icmr.nic.in/ijmr/2011/february/0204.pdf "Cholera toxin – A foe & a friend"]. Indian Journal of Medical Research 133: p. 158. </ref>leading to severe dehydration and diarrhea. | |||
[[Image:Cholera_Mechanism.jpg]] | [[Image:Cholera_Mechanism.jpg]] | ||