Regulatory peptides
-
The BBB prevents the unrestricted exchange of substances between the central nervous system (CNS) and the blood. The blood-brain barrier (BBB) also conveys information between the CNS and the gastrointestinal (GI) tract through several mechanisms. Here, we review three of those mechanisms. ⋯ The ability of GI hormones to affect functions of the BBB, as illustrated by the ability of insulin to alter the BBB transport of amino acids and drugs, represents a second mechanism. A third mechanism is the ability of GI hormones to affect the secretion by the BBB of substances that themselves affect feeding and appetite, such as nitric oxide and cytokines. By these and other mechanisms, the BBB regulates communications between the CNS and GI tract.
-
Regulatory peptides · Jun 2008
Significance of the adrenergic system in the regulation of vasopressin secretion in rat neurohypophyseal tissue cultures.
The effects of adrenaline (A) and noradrenaline (NA) on vasopressin (VP) secretion were studied in 13-14-day cultures of isolated rat neurohypophyseal (NH) tissue. The VP contents of the supernatant media were determined by radioimmunoassay after a 1 or 2-h incubation. Significantly increased VP levels were detected in the tissue culture media following the administration of A (an alpha+beta(2)-receptor agonist), depending on the dose of A. The VP secretion elevation was totally blocked by the previous administration of phentolamine (an alpha(1)+alpha(2)-receptor antagonist) or corynanthine (an alpha(1)-receptor antagonist). Yohimbine (an alpha(2)-receptor antagonist) did not influence the VP secretion increase induced by A. After the administration of NA (a beta+alpha(1)-receptor agonist), a VP secretion elevation was again detected, but the degree of enhancement proved smaller than that of the VP secretion increase induced by A. Propranolol (a beta(1)+beta(2)-receptor antagonist) before NA administration prevented the VP secretion increase. Atenolol (a beta(1)-receptor antagonist) did not block the VP secretion elevation induced by NA. Corynanthine (an alpha(1)-receptor antagonist) treatment before NA administration reduced the NA-induced VP enhancement, because NA has an alpha(1)-receptor agonist character in addition to its main character (a beta-receptor agonist). Surprisingly, the administration of pindolol (a beta(1)+beta(2)-receptor antagonist) enhanced VP secretion. This contradictory effect can be explained in that pindolol not only acts as a blocker, but also exerts "intrinsic sympathomimetic action" and a strong adrenergic agonist effect. Pindolol before NA administration significantly increased the NA-induced VP elevation. ⋯ Mainly the alpha(1)- and beta(2)-adrenergic receptors are involved in the A- or NA-induced increase of VP secretion in isolated NH tissue cultures. The results indicate that VP release is influenced directly by the adrenergic system, and the adrenergic control of VP secretion from the NH tissue in rats can occur at the level of the posterior pituitary.
-
Regulatory peptides · Feb 2008
Apelin reduces myocardial reperfusion injury independently of PI3K/Akt and P70S6 kinase.
Apelin, the endogenous ligand of the G protein-coupled APJ receptor, is a peptide mediator with emerging regulatory actions in the heart. The aim of the present studies was to explore potential roles of the apelin/APJ system in myocardial ischaemia/reperfusion injury. To determine the cardiac expression of apelin/APJ and potential regulation by acute ischaemic insult, Langendorff perfused rat hearts were subjected to regional ischaemia (left coronary artery occlusion, 35 min) or ischaemia followed by reperfusion (30 min). ⋯ Whilst ineffective when used during ischaemia alone, apelin administered during reperfusion significantly reduced infarct size (47.6+/-2.6% of ischaemic risk zone compared to 62.6+/-2.8% in control, n=10 each, p<0.05) in hearts subject to temporary coronary occlusion followed by reperfusion. This protective effect was not abolished by co-administration of the PI3K inhibitor wortmannin (10(-7 )M, infarct size 49.8+/-4.1%, n=4) or the P70S6 kinase inhibitor rapamycin (10(-9 )M, 41.8+/-8.8%, n=4). In conclusion these results suggest that apelin may be a new and potentially important cardioprotective autacoid, upregulated rapidly after myocardial ischaemia and acting through an unknown pathway.
-
Regulatory peptides · Jan 2008
Neuronal interactions between neuropeptide W- and orexin- or melanin-concentrating hormone-containing neurons in the rat hypothalamus.
Neuropeptide W (NPW) was recently discovered as the endogenous ligand for GPR7 and GPR8, which are orphan G protein-coupled receptors isolated from the porcine brain. These receptors are assumed to be involved in feeding regulation and/or energy homeostasis. Recent anatomical studies have revealed that high levels of GPR7 mRNA are distributed in the brain, including the hypothalamus and amygdala. ⋯ Given this positive identification of NPW-containing neurons in the lateral hypothalamus, we further studied the nature of interaction between NPW-containing neurons and neurons containing feeding regulating peptides such as orexin- and melanin-concentrating hormone (MCH). Very close interactions between NPW-containing nerve processes and orexin- and MCH-containing neuronal cell bodies and processes could be observed. These morphological findings strongly suggest that NPW is involved in the regulation of feeding and/or sleep/arousal behavior through orexin- and/or MCH-mediated neuronal pathways.
-
Regulatory peptides · Jan 2008
Developmental expression and serotonergic regulation of relaxin 3/INSL7 in the nucleus incertus of rat brain.
Relaxin 3 or insulin like peptide 7 has been identified as a new member of the insulin/relaxin superfamily. We recently reported that relaxin 3 was dominantly expressed in the brain, particularly in neurons of the nucleus incertus (NI) of the median dorsal tegmental pons and that it might act as a neurotransmitter. In the present study we investigated the developmental expression and serotonergic regulation of relaxin 3 gene in the rat brain. ⋯ We also observed the 5-HT1A receptor localization in relaxin 3 positive neurons of the NI. This result suggests that 5-HT negatively regulates the expression of relaxin 3 gene in the NI. The function of relaxin 3 neurons in the brain is influenced by the serotonergic activity.