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Human Immunodeficiency Virus protease inhibitor

Structure of HIV-1 protease bound to indinavir, (2b7z), resolution 2.20Å

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1 Structure
2 Function
3 Mechanism
4 Cellular Effects

Structure

Crixivan is an antiviral compound that acts as a protease inhibitor. The drug has a molecular weight of 711.875 g/mol and is very soluble in water and ethanol ^[1]. Crixivan works by specifically binding to the HIV-1 protease active site by mimicking a target substrate protein and essentially becoming “stuck” in the enzyme active site, disabling the enzyme. The pyridine group on Indinavir interacts with Arg8 in the protease to conform Indinavir to the active site. The ketone is attacked by with the Asp25 of the protease, forming a bond between the ketone and amide doesn't lyse due to the nature of the inhibitor.

Function

Crixivan functions as a competitive inhibitor affecting the HIV protease protein. Crixivan essentially mimics the target substrate of HIV protease and binds to the protease active site. The HIV protease enzyme is essential to the reproduction of the HIV virus and further infection. HIV protease performs post-translational cleavage of polyproteins, such as Gag, that serve as important factors in virus development. HIV protease is released from the virus soon after the cell is infected and immediately beings lysing polypeptides containing multiple proteins into vital proteins such as reverse transcriptase, integrase, and protease. The virus will halt development if the polypeptides are not lysed and the resulting particles from the virus will be non-infective. The hydrophobic phenyl functional groups located on the terminal ends of Crixivan increased the potency of the drug compared to earlier protease inhibitors. ^[2]

Mechanism

The of HIV-1 protease is inhibited by Crixivan when the molecule interacts with the specific sites that a Gag protein peptide would normally interact with. The active site contains Asp25, which is involved in peptide cleavage, Thr26, which is involved in stabilizing the active site conformation, and Gly27, which is involved in the binding of a protein in a position that gives Asp25 access to its cleavage site. ^[3] Arg8 also plays a role in holding a substrate in place in the enzyme active site. When the Crixivan molecule enters the protease active site it imitates the transition state of Gag protein peptides during the cleavage reaction. The virus' peptide bonds [-NH-CO-] can be cleaved via aspartic catalysis. Crixivan contains a hydroxyethylene [-CH2-CH(OH)-] site instead that cannot be cleaved by Asp25.^[4] The molecule becomes stuck inside the active site because of the hydrogen bonds between Arg8 and Crixivan's pyridine ring and the interactions between Gly27 and Crixivan's aromatic rings. ^[5] This blocks all further cleavage of viral peptides by the protease molecule.

Cellular Effects

Crixivan blocks the cleavage of the Gag multi-protein peptide. This inhibition does not allow for the maturation of new viral particles produced from infected cells. Viral particles that do not mature will not be able to infect new cells, lowering the viral load. Protease inhibitors do not have any effect on already infected cells but they do prevent further cell-to-cell transmission of the virus.^[2]

References

↑ Physicians Desk Reference 66th ed. PDR Network, LLC, Montvale, NJ. p. 2086 (2012)
↑ ^2.0 ^2.1 Scholar, E. M., & Pratt, W.B. (2000). The Antimicrobial Drugs (2nd ed.). New York, NY: Oxford University Press.
↑ Mager PP. The active site of HIV-1 protease. Med Res Rev. 2001 Jul;21(4):348-53. PMID:11410934
↑ De Clercq E. The history of antiretrovirals: key discoveries over the past 25 years. Rev Med Virol. 2009 Sep;19(5):287-99. doi: 10.1002/rmv.624. PMID:19714702 doi:http://dx.doi.org/10.1002/rmv.624
↑ Mahalingam B, Wang YF, Boross PI, Tozser J, Louis JM, Harrison RW, Weber IT. Crystal structures of HIV protease V82A and L90M mutants reveal changes in the indinavir-binding site. Eur J Biochem. 2004 Apr;271(8):1516-24. PMID:15066177 doi:10.1111/j.1432-1033.2004.04060.x

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Kerry Frattarola

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@@ Line 1: / Line 1: @@
-<scene name='74/745991/Progress/2'>TextToBeDisplayed</scene>
 ==Human Immunodeficiency Virus protease inhibitor==
 <StructureSection load='2b7z' size='340' side='right' caption='Structure of HIV-1 protease bound to indinavir, ([[2b7z]]), [[Resolution|resolution]] 2.20&Aring;' scene=''>
 ==Structure==
-[[Crixivan]] is an antiviral compound that acts as a protease inhibitor. Figure 2 below depicts Crixivan’s structure. The drug has a molecular weight of 711.875 g/mol and is very soluble in water and ethanol <ref>Physicians Desk Reference 66th ed. PDR Network, LLC, Montvale, NJ. p. 2086 (2012)</ref>. Crixivan works by specifically binding to the HIV-1 protease active site by mimicking a target substrate protein and essentially becoming “stuck” in the enzyme active site, disabling the enzyme. Crixivan’s pyridine attracts protease Arg8 to hold it in place. Its ketone interacts with the protease Asp25 to perform initiate aspartic catalysis. The bond between the ketone and amine doesn't lyse due to the nature of the inhibitor.
+[[Crixivan]] is an antiviral compound that acts as a protease inhibitor. The drug has a molecular weight of 711.875 g/mol and is very soluble in water and ethanol <ref>Physicians Desk Reference 66th ed. PDR Network, LLC, Montvale, NJ. p. 2086 (2012)</ref>. Crixivan works by specifically binding to the HIV-1 protease active site by mimicking a target substrate protein and essentially becoming “stuck” in the enzyme active site, disabling the enzyme. The pyridine group on Indinavir interacts with Arg8 in the protease to conform Indinavir to the active site. The ketone is attacked by with the Asp25 of the protease, forming a bond between the ketone and amide doesn't lyse due to the nature of the inhibitor.
 == Function ==
@@ Line 10: / Line 9: @@
 == Mechanism ==
-The active site of HIV-1 protease is inhibited by Crixivan when the molecule interacts with the specific sites that a Gag protein peptide would normally interact with. The active site contains Asp25, which is involved in peptide cleavage, Thr26, which is involved in stabilizing the active site conformation, and Gly27, which is involved in the binding of a protein in a position that gives Asp25 access to its cleavage site. <ref>PMID:11410934</ref>  Arg8 also plays a role in holding a substrate in place in the enzyme active site. When the Crixivan molecule enters the protease active site it imitates the transition state of Gag protein peptides during the cleavage reaction. The virus' peptide bonds [-NH-CO-] can be cleaved via aspartic catalysis. Crixivan contains a hydroxyethylene [-CH2-CH(OH)-] site instead that cannot be cleaved by Asp25.<ref>DOI:10.1002/rmv.624</ref> The molecule becomes stuck inside the active site because of the hydrogen bonds between Arg8 and Crixivan's pyridine ring and the interactions between Gly27 and Crixivan's aromatic rings. <ref>DOI:10.1111/j.1432-1033.2004.04060.x</ref> This blocks all further cleavage of viral peptides by the protease molecule.
+The <scene name='74/745991/Progress/2'>active site</scene> of HIV-1 protease is inhibited by Crixivan when the molecule interacts with the specific sites that a Gag protein peptide would normally interact with. The active site contains Asp25, which is involved in peptide cleavage, Thr26, which is involved in stabilizing the active site conformation, and Gly27, which is involved in the binding of a protein in a position that gives Asp25 access to its cleavage site. <ref>PMID:11410934</ref>  Arg8 also plays a role in holding a substrate in place in the enzyme active site. When the Crixivan molecule enters the protease active site it imitates the transition state of Gag protein peptides during the cleavage reaction. The virus' peptide bonds [-NH-CO-] can be cleaved via aspartic catalysis. Crixivan contains a hydroxyethylene [-CH2-CH(OH)-] site instead that cannot be cleaved by Asp25.<ref>DOI:10.1002/rmv.624</ref> The molecule becomes stuck inside the active site because of the hydrogen bonds between Arg8 and Crixivan's pyridine ring and the interactions between Gly27 and Crixivan's aromatic rings. <ref>DOI:10.1111/j.1432-1033.2004.04060.x</ref> This blocks all further cleavage of viral peptides by the protease molecule.

User:Kerry Frattarola/Sandbox 1

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Revision as of 22:07, 5 December 2016

Human Immunodeficiency Virus protease inhibitor

Contents

Structure

Function

Mechanism

Cellular Effects

References

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