Since 601A>G alters the potency of LTD4 and this variant allele may be associated with resistance to asthma, it is possible that modulation of the CYSLTR2 may be useful in asthma pharmacotherapy.
The NOTCH4 gene was recently reported to be associated with schizophrenia based on TDT analysis of 80 British trios. The strongest evidence for association derived from two microsatellites. We genotyped both loci in a large sample of unrelated Scottish schizophrenics and controls, but failed to replicate the reported association, finding instead that each putative schizophrenia-associated allele had a somewhat lower frequency in schizophrenics than in controls.
The present studies were designed to investigate the role of nitric oxide (NO) in the regulation of adrenocortical function, using the intact rat adrenal gland in situ, perfused with medium (Hank's balanced salt solution) containing a range of concentrations of L-arginine, the substrate for NO production. In addition, the effects of NG-nitro-L-arginine methylester (L-NAME), an inhibitor of NO production, were investigated. Results showed that L-arginine caused a dose-dependent increase in the flow rate of the perfusion medium through the adrenal gland. This effect was specific, as neither D-arginine nor L-lysine had an effect. The presence of L-NAME (5 mmol/l) in perfusion medium containing L-arginine caused a decrease in flow rate to levels in the absence of L-arginine. In the presence of concentrations of L-arginine up to 500 mumol/l, corticosterone secretion rates were also stimulated in a dose-dependent manner. Further studies, investigating the effect of L-arginine on the response to ACTH(1-24) stimulation, found that the percentage increase in flow rate, aldosterone secretion and corticosterone secretion caused by ACTH were not significantly different using media containing 230 mumol L-arginine/l or in the absence of L-arginine. These results suggest a role for NO derived from L-arginine in the regulation of basal levels of adrenal vascular tone in the rat isolated adrenal gland preparation. They do not suggest an obligatory role for NO in either the vascular or steroidogenic response to ACTH stimulation.
A range of neuropeptides has been identified in the adrenal glands of many mammalian species. In many cases these peptides have been located in nerves supplying the adrenal cortical cells, or within clusters of chromaffin cells within the zona glomerulosa. The function of these neuropeptides has yet to be determined, but from their location within the gland it is clearly possible that they may have a role in the regulation of aldosterone secretion. The effects of Met-enkephalin, Leu-enkephalin, neuropeptide Y, substance P, corticotrophin-releasing hormone (CRH) and neurotensin on aldosterone secretion were investigated using the intact perfused rat adrenal gland in situ. All the peptides tested, except CRH, caused a significant increase in aldosterone secretion over the dose range of 1 pmol to 10nmol, with a maximum response of about a twofold increase in secretion. Met-enkephalin, however, at a dose of 10 nmol caused a 350% increase in aldosterone secretion, a response comparable with that seen in response to angiotensin II in this preparation. These results suggest that, while substance P, neuropeptide Y, neurotensin and Leu-enkephalin all have the capacity to cause modest increases in the rate of steroid secretion by the zona glomerulosa, these neuropeptides probably do not have a major role in the acute regulation of aldosterone secretion, at least under basal conditions. Met-enkephalin, on the other hand, was a more potent stimulus to aldosterone secretion, and thus may have a role in the control of aldosterone secretion.
Neuropeptide Y (NPY) has been identified in nerves supplying the adrenal cortex of several mammalian species, although its function in this tissue is unknown. The present studies, employing adrenocortical cells prepared by collagenase digestion, have shown that NPY, in the absence of other stimulants, has no effect on steroid secretion by the rat adrenal over a range of peptide concentrations (10(-11) to 10(-6) mol/l). However, in the presence of physiological concentrations of ACTH, which are submaximal for the stimulation of aldosterone secretion, NPY (10(-6) mol/l) significantly enhanced the secretion rate of aldosterone by rat zona glomerulosa cells in response to ACTH. This effect was specific to the rat zona glomerulosa as NPY had no effect on the response to ACTH in rat zona fasciculata cells. The effect of NPY appears to be biphasic, however, as NPY significantly attenuated the steroidogenic response to supramaximal ACTH concentrations: in rat zona glomerulosa cells the aldosterone response to 10(-8) mol ACTH/l was significantly inhibited by NPY. The effect of NPY on the ACTH response appeared to be mediated by changes in the cAMP response. NPY had no effect on the steroidogenic response to potassium ions (K+), but enhanced the response to angiotensin II. NPY (10(-6) mol/l) significantly stimulated inositol 1,4,5-trisphosphate (InsP3) production although this concentration of peptide had no effect on steroid secretion. The effects of NPY on InsP3 production were additive with those of angiotensin II. These results suggest that the role of NPY in the adrenal cortex may be to regulate the sensitivity of the zona glomerulosa to peptide stimulation.
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