Mechanisms of K+ transport across basolateral membranes of principal cells in Malpighian tubules of the yellow fever mosquito,<i>Aedes aegypti</i>

Scott, Brett N.; Yu, Minshu; Lee, Lenora W.; Beyenbach, Klaus W.

doi:10.1242/jeb.00932

Cited by 40 publications

(46 citation statements)

References 42 publications

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“…A similar Ba 2+ -sensitive K + conductance has been identified in other insects (Morgan and Mordue, 1983;O'Donnell and Maddrell, 1984;Baldrick et al, 1988;Leyssens et al, 1992;Neufeld and Leader, 1998;Wiehart et al, 2003;Ianowski and O'Donnell, 2004;Scott et al, 2004). There was no evidence of a significant Na + conductance, but a basolateral Cl -conductance was revealed after K + channels were blocked by Ba 2+ .…”

Section: Ion Conductance Pathways In the Basolateral Membranesupporting

confidence: 66%

“…Bumetanide-sensitive Na + /K + /2Cl -cotransport has been demonstrated in the Malpighian tubules of R. prolixus and D. melanogaster (Ianowski et al, 2002;Ianowski and O'Donnell, 2004), and contributes to ion uptake in T. oceanicus (Xu and Marshall, 1999a;Marshall and Clode, 2009), A. aegypti (Hegarty et al, 1991;Scott et al, 2004), Manduca sexta (Audsley et al, 1993;Reagan, 1995), L. migratoria (Al-Fifi et al, 1998), Tenebrio molitor (Wiehart et al, 2003) and F. polyctena (Leyssens et al, 1994). A putative Na + /K + /2Cl -cotransporter has been cloned from the Malpighian tubules of M. sexta (Reagan, 1995), but mRNA encoding its homologue (CG31547) (Pullikuth et -cotransport is driven by the Na + electrochemical gradient ( bNa /F) across the basolateral membrane, which is maintained by active Na + extrusion into the lumen and bath.…”

Section: Ion Transport Across the Basolateral Membranementioning

confidence: 99%

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Intracellular Na+, K+ and Cl− activities in Acheta domesticus Malpighian tubules and the response to a diuretic kinin neuropeptide

Coast

2012

Journal of Experimental Biology

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SUMMARY The mechanism of primary urine production and the activity of a diuretic kinin, Achdo-KII, were investigated in Malpighian tubules of Acheta domesticus by measuring intracellular Na+, K+ and Cl− activities, basolateral membrane voltage (Vb), fluid secretion and transepithelial ion transport. Calculated electrochemical gradients for K+ and Cl− across the basolateral membrane show they are actively transported into principal cells, and basolateral Ba2+-sensitive K+ channels do not contribute to net transepithelial K+ transport and fluid secretion. A basolateral Cl− conductance was revealed after the blockade of K+ channels with Ba2+, and a current carried by the passive outward movement of Cl− accounts for the hyperpolarization of Vb in response to Ba2+. Ion uptake via Na+/K+/2Cl− cotransport, driven by the inwardly directed Na+ electrochemical gradient, is thermodynamically feasible, and is consistent with the actions of bumetanide, which reduces fluid secretion and both Na+ and K+ transport. The Na+ gradient is maintained by its extrusion across the apical membrane and by a basolateral ouabain-sensitive Na+/K+-ATPase. Achdo-KII has no significant effect on the intracellular ion activities or Vb. Electrochemical gradients across the apical membrane were estimated from previously published values for the levels of Na+, K+ and Cl− in the secreted fluid. The electrochemical gradient for Cl− favours passive movement into the lumen, but falls towards zero after stimulation by Achdo-KII. This coincides with a twofold increase in Cl− transport, which is attributed to the opening of an apical Cl− conductance, which depolarises the apical membrane voltage.

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Section: Ion Conductance Pathways In the Basolateral Membranesupporting

confidence: 66%

Section: Ion Transport Across the Basolateral Membranementioning

confidence: 99%

Intracellular Na+, K+ and Cl− activities in Acheta domesticus Malpighian tubules and the response to a diuretic kinin neuropeptide

Coast

2012

Journal of Experimental Biology

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“…Bumetanide is well-known as an inhibitor of basolateral Na + :K + :2Cl -cotransport in the Malpighian tubules of dipterans (Scott et al, 2004;Ianowski & O'Donnell, 2004) and other species (e.g. crickets; Coast, 2012).…”

Section: Discussionmentioning

confidence: 99%

Transport of H+, Na+ and K+ across the posterior midgut of blood-fed mosquitoes (Aedes aegypti)

Pacey

O’Donnell

2014

Journal of Insect Physiology

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Mosquitoes pose significant threats to human health because they act as vectors for disease causing viruses and protozoans. Indeed, Aedes aegypti is known as the Yellow Fever Mosquito because of its role as a vector for viral infections that kill thousands of people each year. A more thorough understanding of mosquito physiology will aid development of novel control strategies. Previous work on ion transport across the midgut has been focused primarily on larval A. aegypti, while research on the midgut of the adult stage is less complete. The posterior midgut of the adult female is of particular interest because it is used for the storage and digestion of the blood meal which is required for the production of eggs. This study used an array of electrophysiological methodologies such as the Scanning Ion Electrode Technique (SIET) in order to elucidate the patterns and mechanisms of Na + , H + and K + transport across the posterior midgut at intervals during postprandial diuresis and digestion of the blood meal. Measurements of transepithelial potential indicated that the lumen was at its most negative (-13.2 mV) three hours after the blood meal and then gradually became less negative during the time course of digestion. Na + was absorbed (from lumen to bath) at all intervals after the blood meal (6 min, 30 min, 2h, 24 h); calculations of the electrochemical potential indicated that absorption required active transport. H + absorption at all times (6 min -48 h) after the blood meal was also active (i.e. against the electrochemical gradient for H + ) and was greatly reduced by inhibition of carbonic anhydrase. K + transport across the midgut exhibited two distinct phases. During diuresis, luminal concentrations of K + were in the range 24 -28 mM and secretion into the midgut was opposed by the electrochemical iv gradient, indicating active transport. After diuresis, during blood meal digestion, concentrations of K + in the midgut contents were high (95 -134 mM) and absorption of K + was favoured by the electrochemical gradient. K + absorption was sensitive to the channel blocker Ba 2+ during this period.v Acknowledgements

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“…Wiehart et al, 2003a;Ianowski and O'Donnell, 2004;Scott et al, 2004). The third possible mechanism for K + entry is via Ba 2+ sensitive K + channels (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…The third possible mechanism for K + entry is via Ba 2+ sensitive K + channels (e.g. Leyssens et al, 1993;Leyssens et al, 1994;Wiehart et al, 2003b;Scott et al, 2004). The role of the latter in basolateral transport processes in vertebrate epithelia has been recently reviewed (Cotton, 2000;Warth, 2003).…”

Section: Introductionmentioning

confidence: 99%

X-ray microanalysis of Rb+ entry into cricket Malpighian tubule cellsviaputative K+ channels

Marshall

Clode

2009

Journal of Experimental Biology

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Mechanisms of K+ transport across basolateral membranes of principal cells in Malpighian tubules of the yellow fever mosquito,Aedes aegypti

Cited by 40 publications

References 42 publications

Intracellular Na+, K+ and Cl− activities in Acheta domesticus Malpighian tubules and the response to a diuretic kinin neuropeptide

Intracellular Na+, K+ and Cl− activities in Acheta domesticus Malpighian tubules and the response to a diuretic kinin neuropeptide

Transport of H+, Na+ and K+ across the posterior midgut of blood-fed mosquitoes (Aedes aegypti)

X-ray microanalysis of Rb+ entry into cricket Malpighian tubule cellsviaputative K+ channels

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