Drug Resistance in Mycobacterium Tuberculosis
Tuberculosis (TB) is a potentially deadly disease caused by pathogenic bacteria, usually Mycobacterium tuberculosis. It has existed in humans since ancient times and had high mortality rates without adequate treatment options before the invention of antibiotics , specifically streptomycin in 1943, that were potent enough to kill the bacteria. [6] In the 1960’s, following a drastic reduction in TB rates around the world, people began to predict that the disease could be completely eradicated within a century. [5] However, this goal proved overly-optimistic as drug-resistant strains had begun to emerge since the first use of antibiotics to treat TB. At first this was mainly due to only using a single drug, streptomycin, to treat the infection, prompting the use of multi-drug therapy but in recent decades multi-drug resistant (MDR), extensively- drug resistant (XDR), and totally-drug resistant (TDR) strains of TB have emerged. [1] Many of these strains are effectively incurable, especially the XDR and TDR strains, even for patients with access to an array of anti-TB drugs. [1] Given their grave public health threat it is crucial to study the molecular biology of the intrinsic and acquired mechanisms of resistance in M. tuberculosis in order to develop new drugs that avoid these mechanisms.
Intrinsic Drug Resistance
M. tuberculosis possess a multitude of resistance mechanisms against a wide range of antibiotics, as far as its intrinsic mechanisms (as opposed to acquired mechanisms that are brought about by chromosomal mutations, as discussed below) they can be divided into two categories: passive and specialized resistance. [7]
Passive Resistance Mechanisms
• Impermeable cell wall
o Figure 1A. Schematic depiction of the structure of the mycobacterial cell wall. [6]
o Hydrophobic chemicals unable to enter due to layer of hydrophilic arabinogalactan [6]
Wrapped in hydrophobic mycolic acids to limit entrance of hydrophilic molecules
• Added to arabinogalactan in cell wall by group of mycolyltransferase enzymes
o One gene that encodes one of the mycolytransferases is the FbpA gene
• Shown to be a strong connection between mycolic acid content and antibiotic resistance [6]
o Figure 1B. fbpA mutants display sensitivity to a broad range of antibiotics
o Despite being considered Gram-positive, Mycobacterium cell wall layers create space that resembles the periplasm of Gram-negative bacteria. [6]
o Another piece of evidence supporting the impermeability of the Mycobacterial cell wall is the fact that the time it takes for β-lactams to diffuse through the cell wall takes a hundred times longer than it does for Escherichia coli. [7]
Specialized Resistance Mechanisms
• Modification and degradation of drugs
• Modification of drug targets
• Efflux pumps
o Figure 2. Shows role of efflux pumps in intrinsic resistance of M. tuberculosis to the β-lactam class of antibiotics, as well as vancomycin and bacitracin.
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Figure 1. A. Schematic depiction of the structure of the mycobacterial cell wall B. fbpA mutants display sensitivity to a broad range of antibiotics, sensitivity indicated by inhibition zone around discs containing same amount of antibiotics (clear zones) Source: [http://www.ncbi.nlm.nih.gov/pubmed/?term=Mycobacterial+subversion+of+chemotherapeutic+reagents+and+host+defense+tactics%3A+challenges+in+tuberculosis+drug+development. Nguyen L and Pieters J, 2009
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Acquired Resistance
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Methods of Identifying Drug-Resistant Strains and New Drugs
Further Reading
References
Edited by (Noah Knowlton-Latkin), a student of Nora Sullivan in BIOL168L (Microbiology) in The Keck Science Department of the Claremont Colleges Spring 2014.