Novel strategies for targeting the dimerization interface of HIV protease with cross-linked interfacial peptides

As the prevalence of AIDS continues to grow, and current therapeutic agents begin to lose efficacy, the need for alternative treatments to combat HIV has become significantly greater. Targeting the highly conserved dimerization interface of HIV protease (PR) with interfacial peptides has been shown to reduce the activity of the enzyme due to generation of inactive monomers. The potency of these peptide-based inhibitors has been dramatically increased by cross-linking the interfacial sequences derived from HIV PR. This review focuses on a variety of strategies to develop potent, low-molecular-weight dimerization inhibitors of HIV PR.     

A chemical,genetic, and structural analysis of the nuclear bile acid receptor FXR

The farnesoid X receptor (FXR) functions as a bile acid (BA) sensor coordinating cholesterol metabolism, lipid homeostasis, and absorption of dietary fats and vitamins. However, BAs are poor reagents for characterizing FXR functions due to multiple receptor independent properties. Accordingly, using combinatorial chemistry we evolved a small molecule agonist termed fexaramine with 100-fold increased affinity relative to natural compounds. Gene-profiling experiments conducted in hepatocytes with FXR-specific fexaramine versus the primary BA chenodeoxycholic acid (CDCA) produced remarkably distinct genomic targets. Highly diffracting cocrystals (1.78 A) of fexaramine bound to the ligand binding domain of FXR revealed the agonist sequestered in a 726 A(3) hydrophobic cavity and suggest a mechanistic basis for the initial step in the BA signaling pathway. The discovery of fexaramine will allow us to unravel the FXR genetic network from the BA network and selectively manipulate components of the cholesterol pathway that may be useful in treating cholesterol-related human diseases.     

cDNA cloning and expression of the mouse Na/H antiporter (NHE-1) and a potential splice variant

A cDNA for the Mus musculus Na/H exchanger-isoform 1 (NHE-1) was identified in a BALB/c myoblast library by its hybridization to rat NHE-1 sequences. Analysis of the clone showed it to display extensive homology with NHE-1 clones from other mammalian species; however, the region of interspecific homology was abruptly interrupted in the midst of the open reading frame by 166 bp of unrelated sequence. This extra sequence is likely to be an unspliced intron 9. Aside from the retained intron 9, the NHE-1 cDNA clone is otherwise fully processed, with all of the other ten introns removed and containing a poly(A) tract. From PCR results this variant represents a significant but minor population of NHE-1 RNAs. The variant message does associate with polysomes thereby suggesting it to be translated into protein. The location of the retained intron in the carboxy terminus of the protein is such that its translation would produce a protein predicted to be still capable of effecting Na and H translocation but whose regulatory features would be markedly altered.Amino acid sequence comparison of the mouse NHE-1 (derived from the fully processed message) with that of other mammalian species demonstrated two exceptionally divergent regions; the C-terminal cytoplasmic tail (residues 750-790), containing a region of 6-8 contiguous acidic amino acids variably composed of aspartate and glutamate residues, and the N-terminal extracellular domain that includes an N-linked glycosylation site (residues 60-80).     

Regulation of cytoplasmic calcium levels by two nitric oxide receptors

We examined the effects of dissolved nitric oxide (NO) gas oncytoplasmic calcium levels ([Ca²⁺]_i) in C6glioma cells under anoxic conditions. The maximum elevation (27 ± 3 nM) of [Ca²⁺]_i was reached at 10 µM NO. Asecond application of NO was ineffective if the first was >0.5 µM.The NO donor diethylamine/NO mimicked the effects of NO. Acute exposureof the cells to low calcium levels was without effect on the NO-evokedresponse. Thapsigargin (TG) increased [Ca²⁺]_iand was less effective if cells were pretreated with NO. Hemoglobin inhibited the effects of NO at a molar ratio of 10:1. 8-Bromo-cGMP waswithout effect on the NO-evoked response. If cells were pretreated withTG or exposed chronically to nominal amounts of calcium, NO decreased[Ca²⁺]_i. The results suggest that C6 gliomacells have two receptors for NO. One receptor (NO_A)elevates [Ca²⁺]_i and resides on theendoplasmic reticulum (ER). The other receptor (NO_B)decreases [Ca²⁺]_i and resides on theplasmalemma or the ER. The latter receptor dominates when the level ofcalcium within intracellular stores is diminished.

     

A comparative structural analysis of the ADF/cofilin family

Actin-depolymerizing factor (ADF) and cofilin define a family of actin-binding proteins essential for the rapid turnover of filamentous actin in vivo. Here we present the 2.0 A crystal structure of Arabidopsis thaliana ADF1 (AtADF1), the first plant crystal structure from the ADF/cofilin (AC) family. Superposition of the four AC isoform structures permits an accurate sequence alignment that differs from previously reported data for the location of vertebrate-specific inserts and reveals a contiguous, vertebrate-specific surface opposite the putative actin-binding surface. Extending the structure-based sequence alignment to include 30 additional isoforms indicates three major groups: vertebrates, plants, and "other eukaryotes." Within these groups, several structurally conserved residues that are not conserved throughout the entire AC family have been identified. Residues that are highly conserved among all isoforms tend to cluster around the tryptophan at position 90 and a structurally conserved kink in alpha-helix 3. Analysis of surface character shows the presence of a hydrophobic patch and a highly conserved acidic cluster, both of which include several residues previously implicated in actin binding.     

Technical, genetic, and ethical issues in screening and testing of African-Americans for hemochromatosis

To define more precisely populations in which hemochromatosis is frequent to rare, problems of racial classification are introduced, with particular reference to Europeans and African-Americans. Because the category "Caucasian" includes a multitude of dissimilar peoples, the categories Europeans and European-Americans have been substituted for Caucasian, which is archaic. The background of discrimination in sickle hemoglobin programs for African-Americans are then analyzed, including, discrimination by employers, life insurance, and selective mandatory testing. Discrimination and selective testing of African-American employees of the Lawrence Livermore Laboratory continues today without prior consent, as it has since the 1970s. Dissimilarities between the genetics of hemochromatosis in Europeans and their descendants, Africans, and African-Americans are briefly analyzed. Finally, it is concluded that because hemochromatosis is unlike sickle hemoglobin in that it is potentially preventable and treatable, prevention and treatment principles should apply as in other diseases. Furthermore, because hemochromatosis is so common in European-Americans, discrimination, if practiced, would not be selective for African-Americans.     

The microbial composition of three limnologically disparate hypersaline Antarctic lakes

16S rRNA clone library analysis was used to examine the biodiversity and community structure within the sediments of three hypersaline Antarctic lakes. Compared to sediment of low to moderate salinity Antarctic lakes the species richness of the hypersaline lake sediments was 2-20 times lower. The community of Deep Lake (32% salinity, average sediment temperature -15 degrees C) was made up almost entirely of halophilic Archaea. The sediment communities of two meromictic hypersaline lakes, Organic Lake (20% salinity, -7 degrees C) and Ekho Lake (15% salinity, 15 degrees C) were more complex, containing phylotypes clustering within the Proteobacteria and Cytophagales divisions and with algal chloroplasts. Many phylotypes of these lakes were related to taxa more adapted to marine-like salinity and perhaps derive from bacteria exported into the sediment from the lower salinity surface waters. The Ekho Lake clone library contained several major phylotypes related to the Haloanaerobiales, the growth of which appears to be promoted by the comparatively high in situ temperature of this lake.     

Inhibitory copper binding site on the spinach cytochrome b6f complex: implications for Qo site catalysis

The isolated cytochrome (cyt) b(6)f complex from spinach is inhibited by Cu(2+) with a K(D) of about 1 microM at pH 7.6 in the presence of 1.6 microM decyl-plastoquinol (C(10)-PQH(2)) as a substrate. Inhibition was competitive with respect to C(10)-PQH(2) but noncompetitive with respect to horse heart cyt c or plastocyanin (PC). Inhibition was also pH-sensitive, with an apparent pK at about 7, above which inhibition was stronger, suggesting that binding occurred at or near a protonatable amino acid residue. Equilibrium binding titrations revealed ca. 1.4 tight Cu(2+) binding sites with a K(D) of about 0.5 microM and multiple (>8) weak (K(D) > 50 microM) binding sites per complex. Pulsed electron paramagnetic resonance (EPR) techniques were used to identify probable binding sites for inhibitory Cu(2+). A distinct enhancement of the relaxation time constant for the EPR signal from bound Cu(2+) was observed when the cyt f was paramagnetic. The magnitude and temperature-dependence of this relaxation enhancement were consistent with a dipole interaction between Cu(2+) and the cyt f (Fe(3+)) heme at a distance of between 30 and 54 A, depending upon the relative orientations of Cu(2+) and cyt f heme g-tensors. Two-pulse electron spin-echo envelope modulation (ESEEM) and 4-pulse 2-dimensional hyperfine sublevel correlation (2D HYSCORE) measurements of Cu(2+) bound to isolated cyt b(6)f complex indicated the presence of a weakly coupled nitrogen nucleus. The nuclear quadrupole interaction (NQI) and the hyperfine interaction (HFI) parameters identified one Cu(2+) ligand as an imidazole nitrogen of a His residue, and electron-nuclear double resonance (ENDOR) confirmed the presence of a directly coordinated nitrogen. A model of the 3-dimensional structure of the cytochrome b(6)f complex was constructed on the basis of sequences and structural similarities with the mitochondrial cyt bc(1) complex, for which X-ray structures have been solved. This model indicated three possible His residues as ligands to inhibitory Cu(2+). Two of these are located on the "Rieske" iron-sulfur protein protein (ISP) while the third is found on the cyt f protein. None of these potential ligands appear to interact directly with the quinol oxidase (Q(o)) binding pocket. A model is thus proposed wherein Cu(2+) interferes with the interaction of the ISP protein with the Q(o) site, preventing the binding and subsequent oxidation of plastoquinonol. Implications for the involvement of ISP "domain movement" in Q(o) site catalysis are discussed.     

Dissection of malonyl-coenzyme A decarboxylation from polyketide formation in the reaction mechanism of a plant polyketide synthase

Chalcone synthase (CHS) catalyzes formation of the phenylpropanoid chalcone from one p-coumaroyl-CoA and three malonyl-coenzyme A (CoA) thioesters. The three-dimensional structure of CHS [Ferrer, J.-L., Jez, J. M., Bowman, M. E., Dixon, R. A., and Noel, J. P. (1999) Nat. Struct. Biol. 6, 775-784] suggests that four residues (Cys164, Phe215, His303, and Asn336) participate in the multiple decarboxylation and condensation reactions catalyzed by this enzyme. Here, we functionally characterize 16 point mutants of these residues for chalcone production, malonyl-CoA decarboxylation, and the ability to bind CoA and acetyl-CoA. Our results confirm Cys164's role as the active-site nucleophile in polyketide formation and elucidate the importance of His303 and Asn336 in the malonyl-CoA decarboxylation reaction. We suggest that Phe215 may help orient substrates at the active site during elongation of the polyketide intermediate. To better understand the structure-function relationships in some of these mutants, we also determined the crystal structures of the CHS C164A, H303Q, and N336A mutants refined to 1.69, 2.0, and 2.15 A resolution, respectively. The structure of the C164A mutant reveals that the proposed oxyanion hole formed by His303 and Asn336 remains undisturbed, allowing this mutant to catalyze malonyl-CoA decarboxylation without chalcone formation. The structures of the H303Q and N336A mutants support the importance of His303 and Asn336 in polarizing the thioester carbonyl of malonyl-CoA during the decarboxylation reaction. In addition, both of these residues may also participate in stabilizing the tetrahedral transition state during polyketide elongation. Conservation of the catalytic functions of the active-site residues may occur across a wide variety of condensing enzymes, including other polyketide and fatty acid synthases.