Positive cooperativity in the activation of E. coli aquaporin Z by cardiolipin: potential for lipid-based aquaporin modulators
Aquaporins (AQPs) are tetrameric integral membrane proteins (IMPs) that permeabilize cellular membranes to water [1]. Their architecture is well conserved from bacteria to humans [2] where each monomer (~ 25 kDa) acts as a water channel [3]. Although AQPs in humans regulate water transport in sev...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English |
| Published: |
2022
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10356/160421 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Aquaporins (AQPs) are tetrameric integral membrane proteins
(IMPs) that permeabilize cellular membranes to water [1]. Their architecture is well conserved from bacteria to humans [2] where each
monomer (~ 25 kDa) acts as a water channel [3]. Although AQPs in
humans regulate water transport in several organs and their modulation
has immense therapeutic potential, high-throughput screening campaigns to search for AQP inhibitors and modulators have been mostly
fruitless [4]. Recently, a new avenue to AQP modulation was identified
using native mass spectrometry in the gas phase when E. coli cardiolipin
(eCDL) was found to bind E. coli aquaporin Z (AqpZ) [5]. The same paper
showed that the activity of AqpZ was reduced to less than half when
reconstituted in E. coli lipids (ECL) that did not have eCDL. These
findings are not entirely surprising since CDL is a four-fatty acid anionic
lipid present in both mammalian and bacterial membranes that is known
to bind to several membrane proteins with a stabilizing and/or activating effect [6–9]. However, although it has been predicted that eCDL
binds at the monomer-monomer interfaces of the AqpZ tetramer [5,10],
neither binding site, stoichiometry or precise mode of activation of AqpZ
by eCDL are known. The bulk lipid in E. coli is zwitterionic phosphatidylethanolamine (PE) (60%), followed by anionic phosphatidyl-glycerol
(PG) (15%), eCDL (5–15%) and other minor contributors [11]. The
last two, eCDL and PG have been suggested to be present in the annular
regions around AqpZ, whereas PE forms the bulk of the membrane [10].
Herein, we have studied the role of PG and eCDL in the modulation of
AqpZ proteoliposome permeability. |
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