Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twenty-four putative lipase/esterase genes of Mycobacterium tuberculosis H37Rv were expressed in Escherichia coli and assayed for long-chain triacylglycerol (TG) hydrolase activity. We show here that the product of Rv3097c (LIPY) hydrolyzed long-chain TG with high specific activity. LIPY was purified after solubilization from inclusion bodies; the enzyme displayed a K(m) of 7.57 mM and V(max) of 653.3 nmol/mg/min for triolein with optimal activity between pH 8.0 and pH 9.0. LIPY was inhibited by active serine-directed reagents and was inactivated at temperatures above 37 degrees C. Detergents above their critical micellar concentrations and divalent cations inhibited the activity of LIPY. The N-terminal half of LIPY showed sequence homology with the proline glutamic acid-polymorphic GC-rich repetitive sequences protein family of M. tuberculosis. The C-terminal half of LIPY possesses amino acid domains homologous with the hormone-sensitive lipase family and the conserved active-site motif GDSAG. LIPY shows low sequence identity with the annotated lipases of M. tuberculosis and with other bacterial lipases. We demonstrate that hypoxic cultures of M. tuberculosis, which had accumulated TG, hydrolyzed the stored TG when subjected to nutrient starvation. Under such conditions, lipY was induced more than all lipases, suggesting a central role for it in the utilization of stored TG. We also show that in the lipY-deficient mutant, TG utilization was drastically decreased under nutrient-deprived condition. Thus, LIPY may be responsible for the utilization of stored TG during dormancy and reactivation of the pathogen.
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PMID:A novel lipase belonging to the hormone-sensitive lipase family induced under starvation to utilize stored triacylglycerol in Mycobacterium tuberculosis. 1635 61

Mycobacterium tuberculosis genes Rv2557 and Rv2558 have no known function. However, proteome, transcriptome and in situ hybridization studies have shown that these genes are significantly upregulated under carbon-starved conditions and in human granulomas, suggesting that they may play a role in persistence. Single and double deletion mutants of M. tuberculosis H37Rv in Rv2557 and/or Rv2558 were generated to explore their individual and/or collective role(s) in growth and survival. The mutants were assessed for growth and survival in vitro under normal and nutrient-deprived conditions and for virulence in the SCID mouse model. Although highly induced by carbon starvation, loss of Rv2557 and/or Rv2558 affected neither the long-term survival of M. tuberculosis under carbon-starved conditions in vitro, nor its virulence in SCID mice.
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PMID:The carbon starvation-inducible genes Rv2557 and Rv2558 of Mycobacterium tuberculosis are not required for long-term survival under carbon starvation and for virulence in SCID mice. 1637 15

Two-component signal transduction systems (2-CS) play an important role in bacterial pathogenesis. In the work presented here, we have studied the effects of a mutation in the Mycobacterium tuberculosis (Mtb) PhoPR 2-CS on the pathogenicity, physiology and global gene expression of this bacterial pathogen. Disruption of PhoPR causes a marked attenuation of growth in macrophages and mice and prevents growth in low-Mg2+ media. The inability to grow in THP-1 macrophages can be partially overcome by the addition of excess Mg2+ during infection. Global transcription assays demonstrate PhoP is a positive transcriptional regulator of several genes, but do not support the hypothesis that the Mtb PhoPR system is sensing Mg2+ starvation, as is the case with the Salmonella typhimurium PhoPQ 2-CS. The genes that were positively regulated include those found in the pks2 and the msl3 gene clusters that encode enzymes for the biosynthesis of sulphatides and diacyltrehalose and polyacyltrehalose respectively. Complementary biochemical studies, in agreement with recent results from another group, indicate that these complex lipids are also absent from the phoP mutant, and the lack of these components in its cell envelope may indirectly cause the mutant's high-Mg2+ growth requirement. The experiments reported here provide functional evidence for the PhoPR 2-CS involvement in Mtb pathogenesis, and they suggest that a major reason for the attenuation observed in the phoP mutant is the absence of certain complex lipids that are known to be important for virulence.
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PMID:The Mycobacterium tuberculosis PhoPR two-component system regulates genes essential for virulence and complex lipid biosynthesis. 1657 83

The aim of the present study was to evaluate the chemotherapeutic potential of econazole against latent tuberculosis. The activity of econazole and clotrimazole was tested against the latent bacilli (Mycobacterium tuberculosis H(37)Rv) developed by nutrient starvation under in vitro conditions and by drugs under in vivo conditions. The latent bacteria developed under in vitro latent conditions were acid-fast negative, nonreplicating, resistant to conventional antitubercular drugs and showed low respiration rates. Econazole as well as clotrimazole were found to have strong antimycobacterial potential against latent Mycobacterium tuberculosis under in vitro conditions as seen by reductions in colony-forming units. Further, econazole prevented the formation of drug-induced latency and significantly reduced bacterial burden from lungs and spleens of latent tuberculosis-infected mice. We conclude that azole drugs bear significant therapeutic potential against latent tuberculosis.
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PMID:The potential of azole antifungals against latent/persistent tuberculosis. 1664 May 73

Putative TB vaccine candidates were selected from lists of genes induced in response to in vivo-like stimuli, such as low oxygen and carbon starvation or growth in macrophages, and tested as plasmid DNA vaccines for their ability to protect against Mycobacterium tuberculosis challenge in a guinea pig aerosol infection model. This vaccination method was chosen as it induces the Th1 cell-mediated immune response required against intracellular pathogens such as M. tuberculosis. Protection was assessed in the guinea pig model in terms of mycobacteria present in the lungs at 30 days post-challenge. Protection achieved by the novel candidates was compared to BCG (positive control) and saline (negative control). Four vaccines encoding for proteins such as PE and PPE proteins, a zinc metalloprotease and an acyltransferase, gave a level of protection that was statistically better than saline in the lungs. These findings have enabled us to focus on a sub-set of vaccine candidates for further evaluation using additional vaccination strategies.
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PMID:Selection of novel TB vaccine candidates and their evaluation as DNA vaccines against aerosol challenge. 1678

The Mycobacterium tuberculosis protein Rv2302 (80 residues; molecular mass of 8.6 kDa) has been characterized using nuclear magnetic resonance (NMR) and circular dichroism (CD) spectroscopy. While the biochemical function of Rv2302 is still unknown, recent microarray analyses show that Rv2302 is upregulated in response to starvation and overexpression of heat shock proteins and, consequently, may play a role in the biochemical processes associated with these events. Rv2302 is a monomer in solution as shown by size exclusion chromatography and NMR spectroscopy. CD spectroscopy suggests that Rv2302 partially unfolds upon heating and that this unfolding is reversible. Using NMR-based methods, the solution structure of Rv2302 was determined. The protein contains a five-strand, antiparallel beta-sheet core with one C-terminal alpha-helix (A61 to A75) nestled against its side. Hydrophobic interactions between residues in the alpha-helix and beta-strands 3 and 4 hold the alpha-helix near the beta-sheet core. The electrostatic potential on the solvent-accessible surface is primarily negative with the exception of a positive arginine pocket composed of residues R18, R70, and R74. Steady-state {(1)H}-(15)N heteronuclear nuclear Overhauser effects indicate that the protein's core is rigid on the picosecond timescale. The absence of amide cross-peaks for residues G13 to H19 in the (1)H-(15)N heteronuclear single quantum correlation spectrum suggests that this region, a loop between beta-strands 1 and 2, undergoes motion on the millisecond to microsecond timescale. Dali searches using the structure closest to the average structure do not identify any high similarities to any other known protein structure, suggesting that the structure of Rv2302 may represent a novel protein fold.
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PMID:Solution structure of the conserved hypothetical protein Rv2302 from Mycobacterium tuberculosis. 1688 68

Mycobacterium tuberculosis SigF is homologous to stress response and sporulation sigma factors in many bacteria. Consistent with a possible role in mycobacterial survival under stress conditions, M. tuberculosis sigF is strongly induced within cultured human macrophages and upon nutrient starvation, and SigF has been implicated in M. tuberculosis entry into stationary phase. On the other hand, SigF appears to contribute to the immune pathology of tuberculosis (TB), and a sigF-deficient mutant has altered cell membrane properties. Using an M. tuberculosis sigF deletion mutant, we show here that sigF is not required for bacillary survival under nutrient starvation conditions and within activated murine macrophages or for extracellular persistence in an in vivo granuloma model of latent TB infection. Using a chemically inducible recombinant strain to conditionally overexpress sigF, we did not observe arrest or retardation of growth in exponentially growing cultures or reduced susceptibility to rifampin and isoniazid. Consistent with our hypothesis that SigF may mediate TB immunopathogenesis by altering cell membrane properties, we found that overexpression of sigF resulted in the differential regulation of many cell wall-associated proteins, including members of the MmpL, PE, and PPE families, several of which have been shown to influence host-pathogen interactions. The most highly upregulated gene by quantitative reverse transcription-PCR at all time points following sigF induction was Rv3301c (phoY1), which encodes a probable transcriptional regulatory protein homologous to PhoU proteins involved in regulation of phosphate uptake. Using in vitro transcription analysis, we show that SigF directly regulates phoY1, whose proposed promoter sequence is GGATTG-N(16)-GGGTAT.
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PMID:Mycobacterium tuberculosis SigF regulates genes encoding cell wall-associated proteins and directly regulates the transcriptional regulatory gene phoY1. 1738 87

Mycobacterium tuberculosis possesses six genes (Rv0516c, Rv1364c, Rv1365c, Rv1904, Rv2638 and Rv3687c) encoding putative anti-sigma factor antagonists or stress signaling molecules (SSMs). We have previously shown that the products of these genes physically interact between themselves and with sigma factor SigF (encoded by Rv3286c) and anti-sigma factor RsbW (encoded by Rv3287c) in the yeast two-hybrid system. In order to understand whether ssms respond to stress, we analyzed the expression of these genes in M. tuberculosis exposed to stress at message level using real time RT-PCR. The results revealed that most ssms of M. tuberculosis responded to stress and Rv0516c was the most prominent one. Rv0516c showed elevated expression for NaCl, oxidative and starvation stresses and this was followed by Rv2638 which exhibited upregulation towards stationary phase, heat and oxidative stresses. While Rv1904 and Rv3687c responded significantly to cold and oxidative stresses, Rv1364c responded only to heat stress. Further, studies on the response of sigF and rsbW to stress revealed that only rsbW significantly responded to heat, cold, oxidative, starvation and anaerobic stresses. The response of ssms and rsbW to different stresses may be an indication for the stress activation and regulation of SigF by these molecules.
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PMID:Stress response of genes encoding putative stress signaling molecules of Mycobacterium tuberculosis. 1748 4

The replication and growth of Mycobacterium tuberculosis are fundamentally linked to the synthesis and extension of its complex cell wall. Incorporation of new wall material must be tightly regulated so that its deposition does not compromise the extant structure. M. tuberculosis also produces an impressive array of complex bioactive lipids that are intimately involved in pathogenesis and protective immunity. The profiles of these lipids are regulated appropriately to allow the bacterium to respond to the prevailing conditions it faces in vivo. A number of regulatory strategies employed by M. tuberculosis to control cell wall biosynthesis and cell division have now been elucidated. The review highlights the role of alternative sigma factors with extracytoplasmic function in the activation of genes for biosynthesis of complex lipids involved in pathogenicity. Rel(Mtb) and CRP(Mt) play roles in cell wall responses to general nutrient deprivation by synthesis and sensing of starvation second messengers, respectively. Recently, the importance of protein phosphorylation networks in cell wall biosynthesis has attracted considerable interest. A plethora of two-component and eukaryotic-like serine/threonine protein kinases systems have been discovered and several are implicated in cell-division, morphogenesis and regulation of the profile of complex bioactive lipids elaborated by the pathogen.
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PMID:Regulation of cell wall synthesis and growth. 1750 11

Cyclic AMP (cAMP) receptor protein (CRP)/fumarate nitrate reductase regulator (FNR) family proteins are actively associated with defense against low oxygen stress, starvation and extreme temperature conditions. They are DNA-binding proteins and regulate target genes carrying the regulatory CRP/FNR cognate nucleotide sequence elements. Recombinant protein encoded by the Mycobacterium tuberculosis ORF Rv3676, a putative CRP/FNR regulator, was purified from Escherichia coli and was found to exist as dimer, devoid of any metal cation cofactor. Purified rRv3676 exhibited cAMP binding in a concentration-dependent manner. At lower concentrations of cAMP (6-10 microM) rRv3676 shows positive cooperativity; at 10 microM cAMP the protein exists in the most open conformation. rRv3676 could bind specifically to the putative CRP/FNR nucleotide sequence elements as evident from electrophoretic mobility shift assay.
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PMID:Novel biochemical properties of a CRP/FNR family transcription factor from Mycobacterium tuberculosis. 1770 48


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