Abstract
We report on the existence of two phosphatidic acid biosynthetic pathways in mycobacteria, a classical one wherein the acylation of the
sn
-1 position of glycerol-3-phosphate (G3P) precedes ...that of
sn
-2 and another wherein acylations proceed in the reverse order. Two unique acyltransferases, PlsM and PlsB2, participate in both pathways and hold the key to the unusual positional distribution of acyl chains typifying mycobacterial glycerolipids wherein unsaturated substituents principally esterify position
sn
-1 and palmitoyl principally occupies position
sn
-2. While PlsM selectively transfers a palmitoyl chain to the
sn
-2 position of G3P and
sn-
1-lysophosphatidic acid (LPA), PlsB2 preferentially transfers a stearoyl or oleoyl chain to the
sn-
1 position of G3P and an oleyl chain to
sn-
2-LPA. PlsM is the first example of an
sn
-2 G3P acyltransferase outside the plant kingdom and PlsB2 the first example of a 2-acyl-G3P acyltransferase. Both enzymes are unique in their ability to catalyze acyl transfer to both G3P and LPA.
Type I polyketide synthases (PKSs) are multifunctional enzymes responsible for the biosynthesis of a group of diverse natural compounds with biotechnological and pharmaceutical interest called ...polyketides. The diversity of polyketides is impressive despite the limited set of catalytic domains used by PKSs for biosynthesis, leading to considerable interest in deciphering their structure-function relationships, which is challenging due to high intrinsic flexibility. Among nineteen polyketide synthases encoded by the genome of Mycobacterium tuberculosis, Pks13 is the condensase required for the final condensation step of two long acyl chains in the biosynthetic pathway of mycolic acids, essential components of the cell envelope of Corynebacterineae species. It has been validated as a promising druggable target and knowledge of its structure is essential to speed up drug discovery to fight against tuberculosis. We report here a quasi-atomic model of Pks13 obtained using small-angle X-ray scattering of the entire protein and various molecular subspecies combined with known high-resolution structures of Pks13 domains or structural homologues. As a comparison, the low-resolution structures of two other mycobacterial polyketide synthases, Mas and PpsA from Mycobacterium bovis BCG, are also presented. This study highlights a monomeric and elongated state of the enzyme with the apo- and holo-forms being identical at the resolution probed. Catalytic domains are segregated into two parts, which correspond to the condensation reaction per se and to the release of the product, a pivot for the enzyme flexibility being at the interface. The two acyl carrier protein domains are found at opposite sides of the ketosynthase domain and display distinct characteristics in terms of flexibility. The Pks13 model reported here provides the first structural information on the molecular mechanism of this complex enzyme and opens up new perspectives to develop inhibitors that target the interactions with its enzymatic partners or between catalytic domains within Pks13 itself.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Mycolic acids (MAs) have a strategic location within the mycobacterial envelope, deeply influencing its architecture and permeability, and play a determinant role in the pathogenicity of ...mycobacteria. The fatty acid synthase type II (FAS-II) multienzyme system is involved in their biosynthesis. A combination of pull-downs and proteomics analyses led to the discovery of a mycobacterial protein, HadD, displaying highly specific interactions with the dehydratase HadAB of FAS-II. In vitro activity assays and homology modeling showed that HadD is, like HadAB, a hot dog folded (R)-specific hydratase/dehydratase. A hadD knockout mutant of Mycobacterium smegmatis produced only the medium-size alpha'-MAs. Data strongly suggest that HadD is involved in building the third meromycolic segment during the late FAS-II elongation cycles, leading to the synthesis of the full-size alpha- and epoxy-MAs. The change in the envelope composition induced by hadD inactivation strongly altered the bacterial fitness and capacities to aggregate, assemble into colonies or biofilms and spread by sliding motility, and conferred a hypersensitivity to the firstline antimycobacterial drug rifampicin. This showed that the cell surface properties and the envelope integrity were greatly affected. With the alarmingly increasing case number of nontuberculous mycobacterial diseases, HadD appears as an attractive target for drug development.
The last steps of the biosynthesis of mycolic acids, essential and specific lipids of Mycobacterium tuberculosis and related bacteria, are catalyzed by proteins encoded by the fadD32-pks13-accD4 ...cluster. Here, we produced and purified an active form of the Pks13 polyketide synthase, with a phosphopantetheinyl (P-pant) arm at both positions Ser-55 and Ser-1266 of its two acyl carrier protein (ACP) domains. Combination of liquid chromatography-tandem mass spectrometry of protein tryptic digests and radiolabeling experiments showed that, in vitro, the enzyme specifically loads long-chain 2-carboxyacyl-CoA substrates onto the P-pant arm of its C-terminal ACP domain via the acyltransferase domain. The acyl-AMPs produced by the FadD32 enzyme are specifically transferred onto the ketosynthase domain after binding to the P-pant moiety of the N-terminal ACP domain of Pks13 (N-ACPPks13). Unexpectedly, however, the latter step requires the presence of active FadD32. Thus, the couple FadD32-(N-ACPPks13) composes the initiation module of the mycolic condensation system. Pks13 ultimately condenses the two loaded fatty acyl chains to produce α-alkyl β-ketoacids, the precursors of mycolic acids. The developed in vitro assay will constitute a strategic tool for antimycobacterial drug screening.
The Mycobacterium tuberculosis fatty acid synthase type II (FAS-II) system has the unique property of producing unusually long-chain fatty acids involved in the biosynthesis of mycolic acids, key ...molecules of the tubercle bacillus. The enzyme(s) responsible for dehydration of (3R)-hydroxyacyl-ACP during the elongation cycles of the mycobacterial FAS-II remained unknown. This step is classically catalyzed by FabZ- and FabA-type enzymes in bacteria, but no such proteins are present in mycobacteria. Bioinformatic analyses and an essentiality study allowed the identification of a candidate protein cluster, Rv0635-Rv0636-Rv0637. Its expression in recombinant Escherichia coli strains leads to the formation of two heterodimers, Rv0635-Rv0636 (HadAB) and Rv0636-Rv0637 (HadBC), which also occurs in Mycobacterium smegmatis, as shown by split-Trp assays. Both heterodimers exhibit the enzymatic properties expected for mycobacterial FAS-II dehydratases: a marked specificity for both long-chain (≥C₁₂) and ACP-linked substrates. Furthermore, they function as 3-hydroxyacyl dehydratases when coupled with MabA and InhA enzymes from the M. tuberculosis FAS-II system. HadAB and HadBC are the long-sought (3R)-hydroxyacyl-ACP dehydratases. The correlation between the substrate specificities of these enzymes, the organization of the orthologous gene cluster in different Corynebacterineae, and the structure of their mycolic acids suggests distinct roles for both heterodimers during the elongation process. This work describes bacterial monofunctional (3R)-hydroxyacyl-ACP dehydratases belonging to the hydratase 2 family. Their original structure and the fact that they are essential for M. tuberculosis survival make these enzymes very good candidates for the development of antimycobacterial drugs.
Mycolic acids are extremely-long-chain fatty acids that compose a large family of mycolate-containing compounds, major envelope lipid components and critical pathogenicity factors of Mycobacterium ...tuberculosis . In recent years there have been major advances in understanding their metabolic pathway. Unknown enzymes of the fatty acid synthase type II elongation system and the condensation system that builds the mycolic acid scaffold were identified. Missing links with the mycolate-containing compound biosynthesis–such as the mechanisms of transfer onto trehalose and of translocation through the inner membrane–were deciphered, while recycling processes have emerged. Beyond the more accurate picture of the biosynthesis and translocation pathways dedicated to these unique molecules, major issues that should be addressed in the future are also discussed.
Isoxyl (ISO) and thiacetazone (TAC), two prodrugs once used in the clinical treatment of tuberculosis, have long been thought to abolish Mycobacterium tuberculosis (M. tuberculosis) growth through ...the inhibition of mycolic acid biosynthesis, but their respective targets in this pathway have remained elusive. Here we show that treating M. tuberculosis with ISO or TAC results in both cases in the accumulation of 3-hydroxy C18, C20, and C22 fatty acids, suggestive of an inhibition of the dehydratase step of the fatty-acid synthase type II elongation cycle. Consistently, overexpression of the essential hadABC genes encoding the (3R)-hydroxyacyl-acyl carrier protein dehydratases resulted in more than a 16- and 80-fold increase in the resistance of M. tuberculosis to ISO and TAC, respectively. A missense mutation in the hadA gene of spontaneous ISO- and TAC-resistant mutants was sufficient to confer upon M. tuberculosis high level resistance to both drugs. Other mutations found in hypersusceptible or resistant M. tuberculosis and Mycobacterium kansasii isolates mapped to hadC. Mutations affecting the non-essential mycolic acid methyltransferases MmaA4 and MmaA2 were also found in M. tuberculosis spontaneous ISO- and TAC-resistant mutants. That MmaA4, at least, participates in the activation of the two prodrugs as proposed earlier is not supported by our biochemical evidence. Instead and in light of the known interactions of both MmaA4 and MmaA2 with HadAB and HadBC, we propose that mutations affecting these enzymes may impact the binding of ISO and TAC to the dehydratases.
Background: The anti-TB prodrugs isoxyl (ISO) and thiacetazone (TAC) inhibit mycolic acid biosynthesis.
Results: We show that ISO and TAC both target the dehydration step of the FAS-II elongation system.
Conclusion: ISO and TAC share the same mode of action.
Significance: ISO and TAC are the first antibiotics reported to target the FAS-II dehydratase(s) of Mycobacterium tuberculosis.
Resistance to isoniazid in Mycobacterium tuberculosis can be mediated by substitution of alanine for serine 94 in the InhA protein, the drug's primary target. InhA was shown to catalyze the ...β-nicotinamide adenine dinucleotide (NADH)-specific reduction of 2-trans-enoyl-acyl carrier protein, an essential step in fatty acid elongation. Kinetic analyses suggested that isoniazid resistance is due to a decreased affinity of the mutant protein for NADH. The three-dimensional structures of wild-type and mutant InhA, refined to 2.2 and 2.7 angstroms, respectively, revealed that drug resistance is directly related to a perturbation in the hydrogen-bonding network that stabilizes NADH binding.
Gram positive mycobacteria with a high GC content, such as the etiological agent of tuberculosis Mycobacterium tuberculosis, possess an outer membrane mainly composed of mycolic acids (MAs), the ...so-called mycomembrane, which is essential for the cell. About thirty genes are involved in the biosynthesis of MAs, which include the hadA, hadB and hadC genes that encode the dehydratases Fatty Acid Synthase type II (FAS-II) known to function as the heterodimers HadA-HadB and HadB-HadC. The present study shows that M. smegmatis cells remain viable in the absence of either HadA and HadC or both. Inactivation of HadC has a dramatic effect on the physiology and fitness of the mutant strains whereas that of HadA exacerbates the phenotype of a hadC deletion. The hadC mutants exhibit a novel MA profile, display a distinct colony morphology, are less aggregated, are impaired for sliding motility and biofilm development and are more resistant to detergent. Conversely, the hadC mutants are significantly more susceptible to low- and high-temperature and to selective toxic compounds, including several current anti-tubercular drugs.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
The synthesis and biological evaluation of azaisoindolinone compounds embedding a lipophilic chain on the framework were performed. These compounds were designed as InhA inhibitors and as ...anti-Mycobacterium tuberculosis agents. Structure–activity relationships concerning the length and the location of the lipophilic chain around the azaisoindolinone framework, the suppression of the phenyl group, the bioisosteric substitution of ether link and alkylating of the tertiary hydroxyl and the hemiamidal nitrogen were also investigated, revealing insightful information and thereby enabling further diversification of the azaisoindolinone scaffold for new antitubercular agents.
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