Sandbox GGC4

From Proteopedia

(Difference between revisions)

Current revision

HIV-1 Protease

An infection of the Human Immuno-deficiency Virus can cause Acquired Immunodeficiency Syndrome (AIDS). HIV attacks the CD4 T cells that are an essential part of the cell-mediated immune response, without which the immune system cannot fight against other infections or cancers, causing AIDS. There are currently 37 million people worldwide living with HIV/AIDS, with approximately 1 million new cases each year along with approximately 1 million deaths a year.

Antiretroviral Therapy is one of the HIV treatments that is most effective as the combinations of different medicines reduce the viral load to become undetectable and non-transmissible and also allows the immune system to recuperate and increase the CD4 count. Protease Inhibitors are one of the FDA approved medicines that target the viral Aspartyl Protease to prevent the HIV from making more copies of itself.

1 Function
2 Disease
3 Relevance
4 Structural highlights

Function

HIV-1 Aspartyl Proteases are homo-dimeric proteolytic enzymes, also known as endopeptidases that allow water molecules to act as nucleophiles during catalysis when activated by 2 aspartic acid residues that make up the . Usually, the active site consists of a triad (ASP-THR-GLY) on each monomer with the catalytic residue being D25.

Aspartyl Protease cleaves the Gag and Gag-Pol polyproteins that encode for other structural proteins and enzymes crucial for viral maturation. Hence, HIV-1 Protease Inhibitors have been developed to inhibit the viral protease enzyme to prevent the production and release of mature, infectious HIV virions. Here is how an inhibitor binds to the protease to form a .

Disease

Protease inhibitors along with reverse transcriptase inhibitors have been proven to be effective in reducing the viral load to slow the development of AIDS, however in recent years, mutations on the HIV-1 Protease have become a new challenge for researchers and pharmaceutical companies. Here is an image of a from a patient for whom the protease inhibitor regimen is no longer effective. The HIV-1 strain from this patient has 9 mutations per monomer. The ineffectiveness of the protease inhibitors can allow the viral load to increase and allow the progression of AIDS.

Relevance

Once again, if the structure of the protease enzyme changes due to mutations, the protease inhibitors will not be effective in preventing viral maturation. The relevance of these mutations can be seen in the active site expansion that takes place, especially at , among others. Here, it can be seen that the V82A and the I84V mutation causes the distance between the active site flap to become wider as the amino acid side chains become shorter. The change in the distance of amino acid 83,84,182 and 184 is approximately 1.5 A each in amino acid residues according to Logsdon et al, 2004.This conformational change reduces the binding affinity of the protease inhibitor to the active site.

Structural highlights

Other notable structural highlights include the 1. , 2. , 3. , and 4.

References

Logsdon BC, Vickrey JF, Martin P, Proteasa G, Koepke JI, Terlecky SR, Wawrzak Z, Winters MA, Merigan TC, Kovari LC. Crystal structures of a multidrug-resistant human immunodeficiency virus type 1 protease reveal an expanded active-site cavity. J Virol. 2004 Mar;78(6):3123-32. doi: 10.1128/jvi.78.6.3123-3132.2004. PMID: 14990731; PMCID: PMC354404.

Munshi S, Chen Z, Li Y, Olsen DB, Fraley ME, Hungate RW, Kuo LC. Rapid X-ray diffraction analysis of HIV-1 protease-inhibitor complexes: inhibitor exchange in single crystals of the bound enzyme. Acta Crystallogr D Biol Crystallogr. 1998 Sep 1;54(Pt 5):1053-60. doi: 10.1107/s0907444998003588. PMID: 9757136.

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox_GGC4"

@@ Line 1: / Line 1: @@
-==Apolipoprotein==
+==HIV-1 Protease==
+An infection of the Human Immuno-deficiency Virus can cause Acquired Immunodeficiency Syndrome (AIDS). HIV attacks the CD4 T cells that are an essential part of the cell-mediated immune response, without which the immune system cannot fight against other infections or cancers, causing AIDS. There are currently 37 million people worldwide living with HIV/AIDS, with approximately 1 million new cases each year along with approximately 1 million deaths a year.
+Antiretroviral Therapy is one of the HIV treatments that is most effective as the combinations of different medicines reduce the viral load to become undetectable and non-transmissible and also allows the immune system to recuperate and increase the CD4 count. Protease Inhibitors are one of the FDA approved medicines that target the viral Aspartyl Protease to prevent the HIV from making more copies of itself.
+<StructureSection load='3VEV' size='340' side='right' caption='Caption for this structure' scene=''>
-'''Apolipoprotein A1'''
-<StructureSection load='1av1' size='340' side='right' caption='Caption for this structure' scene=''>This is a default text for your page Sandbox GGC1. Click above on edit this page to modify. Be careful with the < and > signs.
-You may include any references to papers as in: the use of JSmol in Proteopedia [1] or to the article describing Jmol [2] to the rescue
 == Function ==
+HIV-1 Aspartyl Proteases are homo-dimeric proteolytic enzymes, also known as endopeptidases that allow water molecules to act as nucleophiles during catalysis when activated by 2 aspartic acid residues that make up the <scene name='75/752268/Active_site_without_inhibitor/1'>active site</scene>. Usually, the active site consists of a triad (ASP-THR-GLY) on each monomer with the catalytic residue being D25.
-Apolipoproteins are proteins that coat lipoprotein surface that binds lipids such as cholesterol, low-density lipoprotein (LDL), or high-density lipoproteins (HDL) in lipid metabolism. They function in the transport of such lipids in their structure that acts as a ligand to cell receptors and lipid transport proteins. <scene name='75/752268/Polar/1'>Amphipathic</scene> structural behavior are what allows the interaction between hydrophobic properties of water, such as in the blood stream and hydrophobic lipids.
+Aspartyl Protease cleaves the Gag and Gag-Pol polyproteins that encode for other structural proteins and enzymes crucial for viral maturation. Hence, HIV-1 Protease Inhibitors have been developed to inhibit the viral protease enzyme to prevent the production and release of mature, infectious HIV virions. Here is how an inhibitor binds to the protease to form a <scene name='75/752268/Hiv-1_protease-inhibitor/1'>HIV-1 protease-inhibitor complex</scene>.
-Apolipoprotein A-I is a protein APOA1 gene in humans that is a component of HDL, which a form of good cholesterol in human's diet, used in the transport of cholesterol and phospholipids in the body through the bloodstream in the reverse transport of cholesterol from the tissues to the liver of hepatocytes. They promote cholesterol efflux, a pathway in transferring intracellular cholesterol to extracellular acceptors, from tissues and act as a cofactor for the lecithin cholesterol acyltransferase (LCAT).
 == Disease ==
+Protease inhibitors along with reverse transcriptase inhibitors have been proven to be effective in reducing the viral load to slow the development of AIDS, however in recent years, mutations on the HIV-1 Protease have become a new challenge for researchers and pharmaceutical companies. Here is an image of a <scene name='75/752268/Mdr_protease_18_mutation/1'>multi-drug resistant HIV-1 Protease enzyme</scene> from a patient for whom the protease inhibitor regimen is no longer effective. The HIV-1 strain from this patient has 9 mutations per monomer. The ineffectiveness of the protease inhibitors can allow the viral load to increase and allow the progression of AIDS.
-== Clinical Significance ==
+== Relevance ==
+Once again, if the structure of the protease enzyme changes due to mutations, the protease inhibitors will not be effective in preventing viral maturation. The relevance of these mutations can be seen in the active site expansion that takes place, especially at <scene name='75/752268/Mutations_v82a_and_i84v/1'>residue positions 82 and 84</scene>, among others. Here, it can be seen that the V82A and the I84V mutation causes the distance between the active site flap to become wider as the amino acid side chains become shorter. The change in the distance of amino acid 83,84,182 and 184 is approximately 1.5 A each in amino acid residues according to Logsdon et al, 2004.This conformational change reduces the binding affinity of the protease inhibitor to the active site.
 == Structural highlights ==
+Other notable structural highlights include the 1. <scene name='75/752268/Inhibitor_binding_site_of_mut1/1'>Inhibitor Binding Site of Mutated HIV-1 Protease</scene>,
-Apolipoprotein a-1 (apoA-I) is a fairly small molecule that consists of a total of 243 residues and is 29-kD polypeptide in size. Structure in <scene name='75/752268/Color/9'>color</scene> is shown in rainbow, in arrangement from N-terminus (red) of amine group to C-terminus (dark blue) end of carboxyl group.
+. <scene name='75/752268/Active_site_flap/1'>Active Site Flap of Mutated HIV-1 Protease</scene>,
+. <scene name='75/752268/Alpha-d-glucose/1'>Interaction with Alpha-D-glucose</scene>, and
-Apolipoprotein a-1  in the monomer form truncated (lacking 1-43 residues) consists of unique pseudo-continuous alpha helix highlighted by kinks at <scene name='75/752268/Truncated/3'>Pro residues</scene>, spaced approximately every 22 residues.
+. <scene name='75/752268/Catalytic_residue_shift/1'>Catalytic Residue Shift
+</scene>
+</StructureSection>
 == References ==
-. Voet, D., Voet, J. G., &amp; Pratt, C. W. (2016). Fundamentals of Biochemistry (5th ed.). Hoboken, NJ: John Wiley &amp; Sons.<references/>
+Logsdon BC, Vickrey JF, Martin P, Proteasa G, Koepke JI, Terlecky SR, Wawrzak Z, Winters MA, Merigan TC, Kovari LC. Crystal structures of a multidrug-resistant human immunodeficiency virus type 1 protease reveal an expanded active-site cavity. J Virol. 2004 Mar;78(6):3123-32. doi: 10.1128/jvi.78.6.3123-3132.2004. PMID: 14990731; PMCID: PMC354404.
+<references/>
-. APOA1 gene: MedlinePlus Genetics. (2020, August 18). Retrieved October 26, 2020, from https://medlineplus.gov/genetics/gene/apoa1/<references/>
+Munshi S, Chen Z, Li Y, Olsen DB, Fraley ME, Hungate RW, Kuo LC. Rapid X-ray diffraction analysis of HIV-1 protease-inhibitor complexes: inhibitor exchange in single crystals of the bound enzyme. Acta Crystallogr D Biol Crystallogr. 1998 Sep 1;54(Pt 5):1053-60. doi: 10.1107/s0907444998003588. PMID: 9757136.
-. Mangaraj, M., Nanda, R., &amp; Panda, S. (2016, July). Apolipoprotein A-I: A Molecule of Diverse Function. Retrieved November 04, 2020, from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4910842<references/>

Sandbox GGC4

From Proteopedia

Current revision

HIV-1 Protease

Contents

Function

Disease

Relevance

Structural highlights

References

Views

Personal tools

Navigation

Search

Toolbox