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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously shown that the beta-adrenergic receptor (beta-AR) stimulates activity of the ubiquitous Na-H exchanger (
NHE-1
) independently of changes in cAMP accumulation and independently of a cholera toxin-sensitive stimulatory GTP-binding protein (Gs). To further investigate the potential role of a GTP-binding protein in coupling the beta-AR to
NHE-1
, we have used a recently available nonhydrolyzable GTP analog, "caged" guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), to study time-dependent effects of GTP on
NHE-1
in intact cells. By monitoring intracellular pH (pHi) in cells loaded with the fluorescent pH-sensitive dye, 2,7-biscarboxyethyl-5(6)-carboxyfluorescein, we determined
NHE-1
activity in primary cultures of canine enteric endocrine cells, which express an endogenous beta-AR, and in mouse L cells stably transfected with either the wild type hamster beta 2-AR or a mutant construct of the hamster beta 2-AR containing a deletion in amino acid residues 222-229. This D(222-229)beta 2-AR is functionally uncoupled from Gs and
adenylylcyclase
. In all three cell types, NaF and GTP gamma S induced an increase in activity of the exchanger, determined by assessing the rate of pHi recovery from an acute intracellular acid load (dpHi/dt). This increase in pHi recovery was dependent on extracellular Na+ and sensitive to the amiloride analog ethylisopropylamiloride. GTP gamma S, but not NaF, also increased beta-adrenergic stimulation of resting
NHE-1
activity. The alkalinization in response to isoproterenol was reversed by propranolol in the absence, but not the presence, of GTP gamma S and was completely blocked by GDP beta S. The ability of guanine nucleotides to regulate beta-adrenergic activation of
NHE-1
in cells expressing the mutant D(222-229)beta 2-AR suggests that functional coupling of the beta-AR to
NHE-1
may be mediated by a GTP-binding protein other than Gs.
...
PMID:Guanine nucleotides regulate beta-adrenergic activation of Na-H exchange independently of receptor coupling to Gs. 132 4
Na+/H+ exchanger (NHE) activity is regulated by several types of receptors directly coupled to distinct classes (i.e. Gs, Gi, Gq, and G12) of heterotrimeric (alpha beta gamma) GTP-binding proteins (G proteins), which, upon activation, modulate production of various second messengers (e.g. cAMP, cGMP, diacylglycerol, inositol trisphosphate, and Ca2+). Recently, four isoforms of the rat Na+/H+ exchanger were identified by molecular cloning. To examine their intrinsic responsiveness to G protein and second messenger stimulation, three of these isoforms,
NHE-1
, -2, and -3, were stably expressed in mutant Chinese hamster ovary cells devoid of endogenous NHE activity (AP-1 cells). Incubation of cells with either AIF4-, a general agonist of G proteins, or cholera toxin, a selective activator of G alpha s that stimulates
adenylate cyclase
, accelerated the rates of amiloride-inhibitable 22Na+ influx mediated by
NHE-1
and -2, whereas they inhibited that by NHE-3. Similarly, short term treatment with phorbol 12-myristate 13-acetate, which mimics diacylglycerol activation of protein kinase C (PKC), or with agents (i.e. forskolin, 8-(4-chlorophenylthio)-cAMP, and isobutylmethylxanthine) that lead to activation of cAMP-dependent protein kinase (PKA) also stimulated transport by
NHE-1
and NHE-2 but depressed that by NHE-3. The effects of phorbol 12-myristate 13-acetate were blocked by depleting cells of PKC or by inhibiting PKC using chelerythrine chloride, confirming a role for PKC in modulating NHE isoform activities. Likewise, the PKA antagonist, H-89, attenuated the effects of elevated cAMPi on
NHE-1
, -2, and -3, further demonstrating the regulation by PKA. Unlike cAMPi, elevation of cGMPi by treatment with dibutyryl-cGMP or 8-bromo-cGMP had no influence on NHE isoform activities, thereby excluding the possibility of a role for cGMP-dependent protein kinase in these cells. These data support the concept that the NHE isoforms are differentially responsive to agonists of the PKA and PKC pathways.
...
PMID:Plasma membrane Na+/H+ exchanger isoforms (NHE-1, -2, and -3) are differentially responsive to second messenger agonists of the protein kinase A and C pathways. 749 49
Parathyroid hormone (PTH) and parathyroid hormone-related peptide (PTHRP) regulate Na+/H+ exchanger activity in osteoblastic cells, although the signaling components involved are not precisely defined. Since these peptide hormones can stimulate production of diverse second messengers (i.e. cAMP and diacylglycerol) that activate protein kinase A (PKA) and protein kinase C (PKC) in target cells, it is conceivable that either one or both of these pathways can participate in modulating exchanger activity. To discriminate among these possibilities, a series of synthetic PTH and PTHRP fragments were used that stimulate
adenylate cyclase
and/or PKC. In the osteoblastic cell line UMR-106, human PTH(1-34) and PTHRP(1-34) augmented
adenylate cyclase
activity, whereas PTH(3-34), PTH(28-42), and PTH(28-48) had no effect. Nevertheless, all these peptide fragments were found to enhance PKC translocation from the cytosol to the membrane in a dose-dependent (10(-11) to 10(-7) M) manner. PTHRP(1-16), a biologically inert fragment, was incapable of influencing either the PKA or PKC pathway. PTH(1-34) and PTHRP(1-34), but not PTH(3-34), PTH(28-42), PTH(28-48), or PTHRP(1-16), elevated Na+/H+ exchanger activity, implicating cAMP as the transducing signal. In accordance with this observation, forskolin (10 microM), which directly stimulates
adenylate cyclase
, also activated Na+/H+ exchanger activity. The involvement of PKA was verified when the highly specific PKA inhibitor, H-89, completely abolished the stimulatory effect of PTH(1-34) and forskolin on Na+/H+ exchange. In addition, Northern blot analysis revealed the presence of only the
NHE-1
isoform of the Na+/H+ exchanger in UMR-106 cells. In summary, these results indicated that PTH and PTHRP activate the Na+/H+ exchanger NHE-1 isoform in osteoblastic UMR-106 cells exclusively via a cAMP-dependent pathway.
...
PMID:Parathyroid hormone and parathyroid hormone-related peptide activate the Na+/H+ exchanger NHE-1 isoform in osteoblastic cells (UMR-106) via a cAMP-dependent pathway. 755 63
Agents known to increase cAMP levels in renal and intestinal epithelia decrease sodium absorption by inhibiting NHE3, an isoform of the Na+/H+ exchanger expressed at high levels in apical membranes of these cells. In contrast, the ubiquitous, housekeeping isoform of the exchanger (
NHE1
) is stimulated by cAMP in some cell types. Optimal activity of NHE3 as well as
NHE1
requires the presence of ATP. To gain insight into the molecular mechanisms of ATP dependence and cAMP regulation of NHE3, a series of mutations were constructed by progressively truncating segments of the C-terminal cytoplasmic domain of the transporter at amino acid positions 684, 638, and 579 (named NHE3delta684, NHE3delta638, and NHE3delta579). In addition, chimeric antiporters were constructed with the N-terminal transmembrane domain of NHE3 linked to the entire cytoplasmic region of
NHE1
(chimera NHE3/1) or vice versa (chimera
NHE1
/3). These constructs were heterologously expressed in antiport-deficient Chinese hamster ovary cells, and their activities were assessed by fluorimetric measurements of intracellular pH and by radioisotope determinations of Na+ influx. Forskolin, which directly stimulates
adenylate cyclase
, inhibited NHE3 as well as
NHE1
/3, but not NHE3/1, suggesting that the cytoplasmic domain of NHE3 was sufficient to confer sensitivity to inhibition by cAMP. Forskolin also inhibited the truncated mutant NHE3delta684 to an extent similar to that for wild type NHE3. However, the inhibitory effect was greatly reduced in NHE3delta638 and more profound truncations (NHE3delta579 obliterated the effect of forskolin. These findings suggest that a region found between amino acids 579 and 684 is essential for the cAMP response of NHE3. In contrast, comparable ATP dependence was observed in all exchanger constructs examined. These observations indicate that ATP dependence is conferred by a region of the molecule in or adjacent to the transmembrane domain, which is most conserved between isoforms. It is concluded that different sites, and therefore different mechanisms, underlie inhibition of NHE3 by cAMP and by depletion of ATP.
...
PMID:Distinct structural domains confer cAMP sensitivity and ATP dependence to the Na+/H+ exchanger NHE3 isoform. 863 66
