Ewald M. Wondrak scite author profile

Previously it was demonstrated using a model precursor that processing at the N terminus of the HIV-1 protease (PR) precedes processing at its C terminus. We now show the expression, purification, and kinetics of the autoprocessing reaction of a PR precursor linked to 53 amino acids of the native flanking transframe region (⌬TFP-p6 pol ) of Gag-Pol and containing its two native cleavage sites. The PR contains the two cysteine residues exchanged to alanines, mutations that do not alter the kinetics or the structural stability of the mature PR. ⌬TFP-p6pol -PR, which encompasses the known PR inhibitor sequence Glu-Asp-Leu within ⌬TFP, undergoes cleavage at the ⌬TFP/p6 pol and p6 pol /PR sites in two consecutive steps to produce the mature PR. Both ⌬TFP-p6 pol -PR and p6 pol -PR exhibit low intrinsic enzymatic activity. The appearance of the mature PR is accompanied by a large increase in catalytic activity. It follows first-order kinetics in protein concentration with a rate constant of 0.13 ؎ 0.01 min ؊1 in 0.1 M acetate at pH 4.8. The pH-rate profile for the observed firstorder rate constant is bell-shaped with two ionizable groups of pK a 4.9 and 5.1. The rate constant also exhibits approximately 7-fold higher sensitivity to urea denaturation as compared with that of the mature PR, suggesting that the cleavage at the N terminus of the PR domain from the precursor leads to the stabilization of the dimeric structure.

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Influence of Flanking Sequences on the Dimer Stability of Human Immunodeficiency Virus Type 1 Protease

Wondrak

Louis

1996

Biochemistry

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The maturation of the human immunodeficiency virus type 1 protease (PR) from the Gag-Pol polyprotein is dependent on the intrinsic proteolytic activity of the dimeric Gag-Pol. Herein, we report the kinetics and conformational stabilities of two unique fusion proteins of the protease. In one, X28-PR, a random sequences of 28 amino acids (X28) was linked to the N terminus of the mature protease. In the second construct, X28-delta TF*PR*delta Pol, X28 is fused to the protease which is flanked at both its termini by short sequences (delta) which correspond to the native sequences of the Gag-Pol precursor. Autoprocessing of the latter protein was prevented by inserting an Ala at the native protease cleavage sites. The measured kinetic parameters and the pH-rate profile of both enzymes are nearly identical to those of the mature protease. However, these fusion proteins are more sensitive to acid and urea denaturation than the mature protease. The decrease in the conformational stability of X28-PR and X28-delta TF*PR*delta Pol is reflected by increases in their apparent dissociation constants (Kd) from < 5 nM to approximately 180 and 25 nM, respectively. These results suggest that subunit interactions and hence the dimer stability of the protease domain in the Gag-Pol polyprotein differ from those of the mature protease. The high Kd of X28-PR further suggests that addition of non-native sequences to the N terminus of the protease destablizes the dimer.

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Comparison of the HIV‐1 and HIV‐2 proteinases using oligopeptide substrates representing cleavage sites in Gag and Gag‐Pol polyproteins

et al. 1991

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The xutrx~r~ spa5tkity af rho humn inmunodclicicncy vitua gyp I (HIV-I) unci ~ypc' 2 (HIV-2) pruteimscr ww cumpsrrcl uxiny oli~sprptidcx carreqxMin@ to ckrtveyc aitcx in tha Gqt und Gug4W palyprutcias ur both viruses. All p6lxidcI mimickinp clcavtiyo ailcr MI the junction QT major functiunul pratcin danr;rins were correctly elctivcd by both cnxymcs. Hawuvrr, some athcr peptidcs thought tm reprrwcnt rrcandary cle~ugl: sites rcmiiierd intact. 'Ptrc kin& p:trcttnctcrx (A'* end k,,) abrainrd far the difikranc atbstrstu rhuwal wcvcrd hunJrc&fultl variation but were rimibr for the MTIC subrtrutc.

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A Transient Precursor of the HIV-1 Protease

Wondrak

Nashed

Haber

et al. 1996

Journal of Biological Chemistry

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Recently, the mechanism of autoprocessing of the protease (PR) of the human immunodeficiency virus type 1 from the model polyprotein, MBP-DeltaTF-PR-DeltaPol, which contains the protease linked to short native flanking sequences (DeltaTF and DeltaPol) fused to the maltose binding protein (MBP) of Escherichia coli, was reported (Louis, J. M., Nashed, N. T., Parris, K. D., Kimmel, A. R., and Jerina, D. M. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 7970-7974). According to this mechanism, intramolecular cleavage of the N-terminal strands of the dimeric MBP-DeltaTF-PR-DeltaPol protein leads to the formation of the PR-DeltaPol intermediate, which is subsequently converted to the mature protease by cleavage of the C-terminal strands. We now report the purification and characterization of the PR-DeltaPol intermediate and the kinetics of its processing to the mature protease. Unlike the MBP-DeltaTF-PR-DeltaPol precursor, PR-DeltaPol has proteolytic activity similar to that of the mature enzyme at pH 5.0. The pH rate profile for kcat/Km is similar to that of the mature protease above pH 4.0. Although the PR-DeltaPol is more sensitive than the mature protease toward denaturing reagents, both the enzymatic activity and the intrinsic fluorescence of PR-DeltaPol are linearly dependent on the protein concentration, indicating that the protein is largely in its dimeric form above 10 nM. In contrast to the first-order kinetics observed for the proteolytic reaction at the N terminus of the protease, the proteolytic reaction at the C terminus of the protease is second order in protein concentration. These results are discussed in terms of a mechanism in which the C-terminally located DeltaPol peptide chains are cleaved intermolecularly to release the mature protease.

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Ewald M. Wondrak

Proteolytic Processing of HIV-1 Protease Precursor, Kinetics and Mechanism

Influence of Flanking Sequences on the Dimer Stability of Human Immunodeficiency Virus Type 1 Protease

Comparison of the HIV‐1 and HIV‐2 proteinases using oligopeptide substrates representing cleavage sites in Gag and Gag‐Pol polyproteins

A Transient Precursor of the HIV-1 Protease

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