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Han Soo Yang Deborah S. Cooper Ira Rajbhandari Hae Jeong Park Soojung Lee Inyeong Choi 《Experimental physiology》2009,94(11):1114-1123
The Na+ –HCO3 – cotransporter NBCn1 (SLC4A7) has multiple variants depending upon splice domains in the cytoplasmic amino- and carboxy-termini of the protein. In this study, we examined the role of the amino-terminal splice domain containing 123 amino acids (cassette II) in the regulation of NBCn1 function and expression. Polymerase chain reaction detected NBCn1 mRNAs containing cassette II in a variety of tissues. Two variants, NBCn1-B containing cassette II and NBCn1-E lacking cassette II, were expressed in Xenopus oocytes and assessed by two-electrode voltage clamp to measure the ionic current mediated by the transporters. The two variants showed similar current–voltage ( I – V ) relations when measured 3–4 days after RNA injection. Replacment of Cl− with gluconate did not affect the I – V relations. When exposed to solutions containing 20–50 m m Na+ , the current produced by NBCn1-B was slightly more positive than that produced by NBCn1-E. The two currents were similar at 100 m m Na+ . The slope conductances for the two variants were progressively increased at higher Na+ levels, and the increases were parallel and superimposed. Measured at different time points after RNA injection, NBCn1-B produced lower conductance than NBCn1-E at 24–48 h. Protein expression of NBCn1-B was also low at these time points as determined by immunoblot of oocyte membrane preparation. Expressed in opossum kidney (OK) cells, NBCn1-E caused a 1.5-fold increase in ouabain-sensitive production of p -nitrophenol from p -phenyl phosphate compared with control preparations, whereas NBCn1-B had negligible effect. We conclude that the primary function of cassette II is to reduce NBCn1 protein expression. 相似文献
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A. Schwab H. Rossmann M. Klein P. Dieterich B. Gassner C. Neff C. Stock U. Seidler 《The Journal of physiology》2005,568(2):445-458
Cell migration is crucial for immune defence, wound healing or formation of tumour metastases. It has been shown that the activity of the Na+ –H+ exchanger (NHE1) plays an important role in cell migration. However, so far it is unknown whether Na+ – HCO3 − cotransport (NBC), which has similar functions in the regulation of intracellular pH (pHi ) as NHE1, is also involved in cell migration. We therefore isolated NHE-deficient Madin-Darby canine kidney (MDCK-F) cells and tested whether NBC compensates for NHE in pHi and cell volume regulation as well as in migration. Intracellular pH was measured with the fluorescent pH indicator 2'7'-bis(carboxyethyl)-5-carboxyfluorescein (BCECF). The expression of NBC isoforms was determined with semiquantitative PCR. Migration was monitored with time-lapse video microscopy and quantified as the displacement of the cell centre. We found that MDCK-F cells express the isoform NBC1 ( SLCA4A gene product) at a much higher level than the isoform kNBC3 ( SLCA4A8 gene product). This difference is even more pronounced in NHE-deficient cells so that NBC1 is likely to be the major acid extruder in these cells and the major mediator of propionate-induced cell volume increase. NHE-deficient MDCK-F cells migrate more slowly than normal MDCK-F cells. NBC activity promotes migration during an acute intracellular acid load and increases migratory speed and displacement on a short timescale (< 30 min) whereas it has no effect on the long-term behaviour of migrating MDCK-F cells. Taken together, our results show that NBC actvity, despite many functional similarities, does not have the same importance for cell migration as NHE1 activity. 相似文献
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Recent studies have suggested that aquaporin-1 (AQP1) as well as the HCO3 − -Cl− transporter may be involved in CO2 transport across biological membranes, but the physiological importance of this route of gas transport remained unknown. We studied CO2 transport in human red blood cell ghosts at physiological temperatures (37 °C). Replacement of inert with CO2 -containing gas above a stirred cell suspension caused an outside-to-inside directed CO2 gradient and generated a rapid biphasic intracellular acidification. The gradient of the acidifying gas was kept small to favour high affinity entry of CO2 passing the membrane. All rates of acidification except that of the approach to physicochemical equilibrium of the uncatalysed reaction were restricted to the intracellular environment. Inhibition of carbonic anhydrase (CA) demonstrated that CO2 -induced acidification required the catalytic activity of CA. Blockade of the function of either AQP1 (by HgCl2 at 65 μM) or the HCO3 − -Cl− transporter (by DIDS at 15 μM) completely prevented fast acidification. These data indicate that, at low chemical gradients for CO2 , nearly the entire CO2 transport across the red cell membrane is mediated by AQP1 and the HCO3 − -Cl− transporter. Therefore, these proteins may function as high affinity sites for CO2 transport across the erythrocyte membrane. 相似文献
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