Journal:JBSD:41
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<b>Molecular Tour</b><br> | <b>Molecular Tour</b><br> | ||
| - | Despite abundant efforts in HIV research the HI-virus remains one of the most serious infectious health threats for human worldwide. Infection involves the entry of the virus into CD4 carrying cells and is mediated by the recognition of the <scene name='Journal:JBSD:41/Cv/2'>cellular CD4 surface protein</scene> by <scene name='Journal:JBSD:41/Cv/3'>gp120 of the viral envelope</scene>. The CD4-binding site of gp120 contains <scene name='Journal:JBSD:41/Cv/4'>two crucial loops</scene>, termed the ‘CD4-binding loop’ and the ‘outer domain exit (ODE) loop’, respectively. Importantly, <scene name='Journal:JBSD:41/Cv/6'>this functional site</scene> is a key target site for gp120-ligands to interfere with the gp120-CD4 interaction and thereby hampering infection. Therapeutic ligands include for instance soluble CD4 and its variants. | + | Despite abundant efforts in HIV research the HI-virus remains one of the most serious infectious health threats for human worldwide. Infection involves the entry of the virus into CD4 carrying cells and is mediated by the recognition of the <scene name='Journal:JBSD:41/Cv/2'>cellular CD4 surface protein</scene> (<span style="color:yellow;background-color:black;font-weight:bold;">colored in yellow</span>) by <scene name='Journal:JBSD:41/Cv/3'>gp120 of the viral envelope</scene>. The CD4-binding site of gp120 contains <scene name='Journal:JBSD:41/Cv/4'>two crucial loops</scene>, termed the ‘CD4-binding loop’ and the ‘outer domain exit (ODE) loop’, respectively. Importantly, <scene name='Journal:JBSD:41/Cv/6'>this functional site</scene> is a key target site for gp120-ligands to interfere with the gp120-CD4 interaction and thereby hampering infection. Therapeutic ligands include for instance soluble CD4 and its variants. |
For the development of more potent gp120-ligands targeting the CD4-binding site we investigated two gp120-proteins from two clinical HIV isolates that exhibit a decreased affinity for soluble CD4. Each variant exhibits a set of simultaneous mutations in the CD4-binding loop and the ODE-loop. The <scene name='Journal:JBSD:41/Cv/7'>mutant gp120(3-2)</scene> exhibits three mutations in the CD4-binding loop (P369A, I371L, T373M) and two mutations in the ODE-loop (G471E, D474N) (Fig. 1b). The gp120(2-1) protein contains three simultaneous mutations: V372E, T373M in the CD4-binding loop, and D474N in the ODE-loop (Fig. 1c).To understand the phenomenon of reduced CD4-binding on a structural level the two gp120 variants were modeled, each with its specific set of mutations, and simulated using molecular dynamics. The results show that the mutant glutamates of both variants play a key role for reduced CD4 binding by affecting the conformation of the CD4-binding and ODE-loop. This knowledge should be helpful to predict the resistance of novel gp120 mutants or to design gp120-ligands with improved binding properties. | For the development of more potent gp120-ligands targeting the CD4-binding site we investigated two gp120-proteins from two clinical HIV isolates that exhibit a decreased affinity for soluble CD4. Each variant exhibits a set of simultaneous mutations in the CD4-binding loop and the ODE-loop. The <scene name='Journal:JBSD:41/Cv/7'>mutant gp120(3-2)</scene> exhibits three mutations in the CD4-binding loop (P369A, I371L, T373M) and two mutations in the ODE-loop (G471E, D474N) (Fig. 1b). The gp120(2-1) protein contains three simultaneous mutations: V372E, T373M in the CD4-binding loop, and D474N in the ODE-loop (Fig. 1c).To understand the phenomenon of reduced CD4-binding on a structural level the two gp120 variants were modeled, each with its specific set of mutations, and simulated using molecular dynamics. The results show that the mutant glutamates of both variants play a key role for reduced CD4 binding by affecting the conformation of the CD4-binding and ODE-loop. This knowledge should be helpful to predict the resistance of novel gp120 mutants or to design gp120-ligands with improved binding properties. | ||
Revision as of 08:04, 13 November 2012
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This page complements a publication in scientific journals and is one of the Proteopedia's Interactive 3D Complement pages. For aditional details please see I3DC.
