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Query: UNIPROT:Q9UIJ5 (
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58,342
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Vasoactive intestinal polypeptide
(
VIP
) and enkephalins were demonstrated in the nerves of the human male urogenital tract by light and electron microscope immunohistochemical techniques. Nerves containing immunoreactivity to
VIP
were more numerous than enkephalin-immunoreactive nerves. Both
VIP
- and enkephalin-immunoreactive nerves were detected in the vas deferens, prostate, seminal vesicles, and urinary bladder. In the kidney, testis, and epididymis no immunoreactive nerves could be demonstrated. By electron microscope both types of immunoreactivities were localized to the large granular vesicles of nerve terminals.
VIP
-immunoreactive nerves were mostly found subepithelially, whereas enkephalin-immunoreactive nerves were mainly related to smooth muscle cells. The possible functions of these peptide-containing nerves are discussed.
Anat
Rec
1986 May
PMID:Light and electron microscope demonstration of VIP- and enkephalin-immunoreactive nerves in the human male genitourinary tract. 351 43
In order to gain a better understanding of the central and local control of laryngeal blood flow, the vascular innervation to the rat laryngeal muscles was examined. To visualize the vascular network, the animals were perfused with a gelatin/India ink solution. The larynges were removed and fixed. The superior laryngeal, cricothyroid, and inferior laryngeal arteries (all branch off the superior thyroid artery) were dissected in continuity into their respective muscles. Specimens were reacted in toto using immunohistochemical techniques for the presence of neuropeptide-Y (NPY),
vasoactive intestinal peptide (VIP)
, calcitonin gene related peptide (CGRP), and neuronal nitric oxide synthase (NOS-1). Results show that all of the laryngeal vasculature is richly innervated by fibers containing these peptides. Qualitatively, the most prominent of these is NPY in association with the superior and the inferior laryngeal arteries, followed by VIP and NOS-1, and finally CGRP distributed equally on all the vessels. Immunopositive fibers are found along the entire course of the feeding arteries, beginning with the superior thyroid artery and continuing down to small arterioles into the terminal vascular beds. These peptides can act as vasodilators, vasoconstrictors, and/or neuromodulators and may work synergistically or antagonistically with other transmitters in controlling laryngeal blood flow. Their effects are dependent on the specific vascular bed in question, that is, in some areas they are vasodilators, in others vasoconstrictors, and in other neuromodulators. What effects they have on the laryngeal vasculature and how they interact within the larynx have yet to be determined.
Anat
Rec
2000 06 01
PMID:Nonadrenergic innervation of the rat laryngeal vasculature. 1082 Mar 20
Pancreatic ganglia are innervated by neurons in the gut and are formed by precursor cells that migrate into the pancreas from the bowel. The innervation of the pancreas, therefore, may be considered an extension of the enteric nervous system. Pituitary adenylate cyclase-activating polypeptide (PACAP) is present in a subset of enteric neurons. We investigated the presence of PACAP in the enteropancreatic innervation in guinea pigs, and the response of pancreatic neurons to PACAP-related peptides. PACAP immunoreactivity was found in nerve fibers in both enteric and pancreatic ganglia and in nerve bundles that travelled between the duodenum and pancreas. PACAP-immunoreactive nerve fibers were densely distributed in the pancreatic ganglia, where they surrounded a subset of cholinergic cell bodies. Pancreatic ganglia did not contain PACAP-immunoreactive cell bodies; however, neuronal perikarya with PACAP immunoreactivity were found in the myenteric plexus of the duodenum. These cells co-stored
vasoactive intestinal peptide (VIP)
. PACAP depolarized pancreatic neurons. Pancreatic neurons were also depolarized by VIP; however, PACAP was more efficacious at depolarizing pancreatic cells than VIP. These findings are consistent with the view that the PACAP effects were mediated through PACAP-selective (PAC1) receptors. PACAP-responsive neurons displayed PAC1 receptor immunoreactivity, which was also found in islet cells and enteric neurons. These results provide support for the hypothesis that PACAP modulates reflex activity between the gut and pancreas. The excitatory effect of PACAP would be expected to potentiate pancreatic secretion.
Anat
Rec
2001 01 01
PMID:Pituitary adenylate cyclase activating peptide (PACAP) in the enteropancreatic innervation. 1114 32
The reticulum and the reticular groove are functional distinct compartments within the ovine forestomach. While the reticulum takes part in various motor functions, such as mixing, retaining, and rejecting the forestomach ingesta, the reticular groove serves mainly as a bypass between the esophagus and the abomasum. To accomplish these different tasks, the compartments develop specific motility patterns that are controlled by intrinsic neural circuits. In this study the intrinsic innervation by myenteric neurons was analyzed by quadruple immunohistochemistry against cholineacetyl transferase (ChAT), nitric oxide synthase (NOS), substance P (SP), and
vasoactive intestinal peptide (VIP)
. Four neurochemically different subpopulations of myenteric neurons were found in the reticulum and the floor of the reticular groove: ChAT/-, ChAT/SP, NOS/-, and NOS/VIP. The neuronal proportions were calculated relative to all myenteric neurons. Neurons of the reticulum were mostly immunoreactive for ChAT (89% +/- 3%), whereas neurons adjacent to the reticular groove predominantly expressed a nitrergic phenotype (62% +/- 4%). ChAT-positive neurons were also immunoreactive for SP (ChAT/SP: 64% +/- 3% reticulum; 25% +/- 1% reticular groove) or were purely cholinergic (ChAT/-: 25% +/- 4% reticulum; 13% +/- 3% reticular groove). NOS-positive neurons colocalized VIP (NOS/VIP: 10% +/- 3% reticulum; 46% +/- 1% reticular groove) or none of the other neurotransmitters (NOS/-: 1% +/- 1% reticulum; 17% +/- 3% reticular groove). Analysis of the soma sizes revealed that in both compartments the nitrergic neurons were significantly larger than the cholinergic neurons. It is suggested that the specific neurochemical code in combination with a specific morphology leads to a precise regulation of the specialized tasks of the reticulum and reticular groove by subpopulations of myenteric neurons.
Anat
Rec
A Discov Mol Cell Evol Biol 2003 Oct
PMID:Reticular groove and reticulum are innervated by myenteric neurons with different neurochemical codes. 1297 15
In small laboratory animals, such as guinea pigs, immunoreactivity for the calcium-binding protein calbindin (CALB) can be used to distinguish functionally different classes of myenteric neurones. The rumen of sheep is a highly specialized gastrointestinal region, and the control of its functions requires specific intrinsic innervation patterns. The aim of this study was to neurochemically identify and characterize CALB-positive myenteric neurones of the ovine rumen. Therefore, we performed quadruple immunohistochemistry against CALB, substance P (SP),
vasoactive intestinal peptide (VIP)
, and nitric oxide synthase (NOS) using whole-mount preparations of the ruminal myenteric plexus. On average, 3 +/- 2 and 1 +/- 0.4 myenteric neurones/ganglion were CALB-immunoreactive in suckling lambs and adult sheep, respectively. These neurones had Dogiel type-I morphology. Most of them (89.2% +/- 8.7% and 71.7% +/-44.8% in suckling lambs and adult sheep, respectively) did not colocalize any of the other antigenes. Since it has been shown in previous studies that ruminal myenteric neurones are immunoreactive for either choline acetyltransferase (ChAT) or NOS, we defined neurones which were CALB-positive and NOS-negative as CALB/ChAT. The other CALB-positive neurones were encoded CALB/NOS/+/-VIP (10.3% +/- 9.3% and 26.7% +/- 46.2% in suckling lambs and adult sheep, respectively) or CALB/ChAT/SP (0.5% +/- 1.0% and 1.7% +/- 1.9% in suckling lambs and adult sheep, respectively). We used cryostat sections of the ruminal wall to analyze the projections of the CALB-positive neurones. CALB-immunoreactive somata were exclusively located within the myenteric plexus. CALB-immunoreactive nerve fibers were found primarily in the lamina propria of the ruminal papillae. We conclude that CALB-positive myenteric neurones within the ovine rumen project to the epithelium; however, their functional role remains to be investigated.
Anat
Rec
A Discov Mol Cell Evol Biol 2004 Jun
PMID:Calbindin-immunoreactive neurones in the ovine rumen. 1516 40
The cranial parasympathetic ganglia have been reported to paradoxically contain the sympathetic nerve marker, tyrosine hydroxylase (TH), in addition to neurons expressing parasympathetic markers such as
vasoactive intestinal peptide (VIP)
and neuronal nitric oxide synthase (nNOS). However, the distribution of these molecules in the cranial ganglia of human fetuses has not yet been examined. Using paraffin sections from 10 mid-term human fetuses (12-15 weeks), we performed immunohistochemistry for TH, VIP, and nNOS in the parasympathetic ciliary, pterygopalatine, otic, and submandibular ganglia, and for comparison, the sensory inferior vagal ganglion. The ciliary and submandibular ganglia contained abundant TH-positive neurons. In the former, TH-positive neurons were much more numerous than nNOS-positive neurons, whereas in the latter, nNOS immunoreactivity was extremely strong. No or a few cells in the pterygopalatine, otic, and inferior vagal ganglia expressed TH. Ciliary TH neurons appeared to compensate for classically described sympathetic fibers arising from the superior cervical ganglion, whereas in the submandibular ganglion, nNOS-positive neurons as well as TH neurons might innervate the lingual artery in addition to the salivary glands. Significant individual variations in the density of all these markers suggested differences in sensitivity to medicine affecting autonomic nerve function. Consequently, in the human cranial autonomic ganglia, it appears that there is no simple dichotomy between sympathetic and parasympathetic function.
Anat
Rec
(Hoboken) 2012 Jan
PMID:Reconsideration of the autonomic cranial ganglia: an immunohistochemical study of mid-term human fetuses. 2209 32
