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Life with Bacterial Mechanosensitive Channels, from Discovery to Physiology to Pharmacological Target

Paul Blount, Irene Iscla

2020Microbiology and Molecular Biology Reviews70 citationsDOIOpen Access PDF

Abstract

assays. MscL contains structural/functional themes that recur in higher organisms and help elucidate how other, structurally more complex, channels function. These features of MscL include (i) the ability to directly sense, and respond to, biophysical changes in the membrane, (ii) an α helix ("slide helix") or series of charges ("knot in a rope") at the cytoplasmic membrane boundary to guide transmembrane movements, and (iii) important subunit interfaces that, when disrupted, appear to cause the channel to gate inappropriately. MscL may also have medical applications: the modality of the MscL channel can be changed, suggesting its use as a triggered nanovalve in nanodevices, including those for drug targeting. In addition, recent studies have shown that the antibiotic streptomycin opens MscL and uses it as one of the primary paths to the cytoplasm. Moreover, the recent identification and study of novel specific agonist compounds demonstrate that the channel is a valid drug target. Such compounds may serve as novel-acting antibiotics and adjuvants, a way of permeabilizing the bacterial cell membrane and, thus, increasing the potency of commonly used antibiotics.

Topics & Concepts

Mechanosensitive channelsBiologyBacteriaIon channelChannel (broadcasting)GeneticsComputer scienceReceptorComputer networkIon channel regulation and functionErythrocyte Function and PathophysiologyPlant-based Medicinal Research
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