Peptide YY (PYY) immunoreactivity is co-stored with glucagon-related immunoreactants in endocrine cells of the gut and pancreas

Summary In this study we report the localisation of PYY immunoreactivity in intestinal mucosa endocrine (EG) cells containing glucagon-related peptides and also in foetal pancreatic A cells of rat and man. Radioimmunoassay of human foetal pancreatic extracts revealed the presence of PYY immunoreactivity, the concentration of which declined with age (from 65.42 pmol/g at week 20 to 17.0 pmol at week 40; correlation coefficient=–0.893), in contrast to the amount of glucagon which remained statistically constant throughout the same foctal period. The identity of this PYY immunoreactive material with the original 36 amino acid porcine peptide has been shown by high pressure liquid chromatography (HPLC).     

Single cellular origin of somatostatin and calcitonin in the rat thyroid gland

Summary Immunostaining of thin serial paraffin sections has shown that somatostatin is present in the same parafollicular cells as calcitonin in the adult rat thyroid gland. The number of cells containing both peptides is much smaller than the number containing calcitonin but not somatostatin.     

Autoradiographic discrimination of brain and atrial natriuretic peptide-binding sites in the rat kidney.

Brain (BNP) and atrial natriuretic peptides (ANP) have been identified which may represent endogenous agonists of kidney receptor subtypes. Quantitative in vitro autoradiography was used to investigate the regional distribution of receptor subpopulations and the competitive inhibition of 125I porcine BNP1-26 (pBNP1-26) and 125I rat alpha-ANP1-28 (rANP1-28) renal binding sites. Specific, high affinity binding (Kd 0.2-1.37 nM range) was localized to glomeruli, inner medulla, interlobar and arcuate arteries, vasa recta bundles, and smooth muscle in the renal pelvis. pBNP1-26 competed for the same sites as rANP1-28 but displayed a lower potency and was less selective for nonclearance sites. Clearance binding sites were discriminated by competitive inhibition with C-ANP4-23 and comprised some 65% of glomerular sites as well as the vast majority of sites in the renal pelvis. Nonclearance sites predominated in the inner medulla and intrarenal arteries. C-terminal changes in amino acid sequence induced a significant loss of inhibitory potency. Immunohistochemical studies identified a distinct population of BNP-like immunoreactive renal nerve fibers, associated with intra-renal arteries. Circulating natriuretic peptides and BNP sequences derived from renal nerves may influence renal function by interacting with specific receptor subpopulations in the kidney.     

Neuropeptide Y modulates the action of vasodilator agents in guinea-pig epicardial coronary arteries

Recently, we have demonstrated that guinea-pig epicardial coronary arteries are supplied by numerous nerve fibres containing neuropeptide Y (NPY) immunoreactivity. However, examination of vasomotor responses revealed that NPY did not elicit a contractile response in these arteries. In contrast, acetylcholine (ACh), calcitonin gene-related peptide (CGRP), substance P and vasoactive intestinal polypeptide (VIP) all relaxed precontracted arteries. In the present study, we have used histochemical, immunohistochemical and in vitro pharmacological techniques, in order to further investigate the possible role of NPY in guinea-pig epicardial coronary arteries. A double-immunofluorescence staining technique revealed that CGRP and substance P were co-localized in nerve fibres distinct from those displaying NPY immunoreactivity. Furthermore, using a method combining immunofluorescence and histochemical techniques, we observed that putative cholinergic nerve fibres (identified by their acetylcholinesterase content) and NPY-immunoreactive nerve fibres are two different nerve populations. An in vitro pharmacological method demonstrated that NPY markedly inhibited the relaxant responses mediated by ACh, VIP, substance P and isoprenaline but had no effect on CGRP. These results suggest that NPY-containing nerves associated with guinea-pig epicardial coronary arteries may be predominantly involved in modulating the action of vasodilator agents.     

Immunohistochemical approach to the study of the cat carotid body

The mammalian carotid body contains a number of different cell types which are not always easy to identify in routine histological sections. We have devised a battery of immunohistochemical tests which overcome this difficulty and offer the possibility of performing routine morphometric analyses of the response of the organ to various pathological processes in paraffin-embedded sections. The type 1 cells can be identified on the basis of their reaction with neuronal specific enolase, whilst type II cells react with antibodies to S-100 protein. Schwann cells do not react with S-100 antibodies but do so with antibodies to glial fibrillary acidic protein; nerve fibres can be identified by their reaction to neurofibrillary protein.     

Topographical localisation of endothelin mRNA and peptide immunoreactivity in neurones of the human brain

Summary The distribution of endothelin mRNA and immunoreactivity in the human brain was investigated using the technique of in situ hybridization and immunocytochemistry. Cryostat sections from 22 cases of neurologically normal adult human brain, collected 3–7 h post-mortem were hybridized with³⁵S-labelled complementary (c)RNA probes prepared from the 3 non-coding region of endothelin-1 cDNA, and the chromosomal genes encoding endothelin-2 and -3. In situ hybridization with all three cRNA probes revealed labelled neuronal cell bodies in laminae III–VI of the parietal, temporal and frontal cortices. Labelled cells were also seen, scattered throughout the para- and periventricular; supraoptic and lateral hypothalamic nuclei, the caudate nucleus, amygdala, hippocampus, basal nucleus of Meynert, substantia nigra, raphe nuclei, Purkinje cell layer of the cerebellum and in the dorsal motor nuclei of the vagus of the medulla oblongata. The distribution of neurones immunoreactive to endothelin was similar to that of endothelin mRNA, although fewer immunoreactive cells throughout the brain, were noted. Immunoreactive fibres were present mainly in the cortex and hypothalamus, and to a lesser extent in the brain stem. Combined in situ hybridization and immunocytochemistry on the same section revealed the presence of endothelin-1 mRNA and immunoreactivity in the same cortical neuronal cell. Colocalisation studies in the cortex revealed endothelin-1 mRNA and immunoreactivity in a number of cells which also expressed neuropeptide Y mRNA and immunoreactivity. In the hypothalamus and basal nucleus of Meynert endothelin immunoreactivity was colocalised to a subset of neurophysin- and galanin-immunoreactive cell bodies respectively. Endothelin mRNA and immunoreactivity was also seen in some blood vessel endothelial cells. The findings of endothelin mRNAs and immunoreactivity in heterogenous neuronal populations further emphasises the potential role of endothelin as a neuropeptide, probably having diverse actions in the nervous system of man.     

Mapping,quantitative distribution and origin of substance P- and VIP-containing nerves in the Uvea of guinea pig eye

Summary VIP- and substance P-like immunoreactivities were found in considerable concentrations (VIP: 17.3±4.8 pmol/g, mean ± SEM; substance P:11.1±1.8 pmol/g) in the uveal portion of the guinea pig eye.d Immunocytochemistry localised these two regulatory peptides to nerve fibres found principally in a plexus in the iris (substance P) and in an extensive network surrounding the blood vessels of the choroid (VIP). A remarkable anatomical demarcation of the two types of peptide-containing nerves was established by the staining of substance P-containing nerves, which stops at the level of the ciliary body. This uveal area is known to be involved in the ocular responses to nociceptive stimuli. At the ultrastructural level, immunoreactivity for both peptides was localised to distinct subpopulations of p-type nerves, distinguishable by the size of their large dense-cored vesicles. Those immunoreactive for VIP were significantly larger (p<0.0005) than those immunoreactive for substance P (95±7 nm and 82±9 nm respectively; mean ± SD). Interruption of the trigeminal pathway produced a remarkable decrease of substance P immunoreactivity in the anterior portion of the uvea (9.1±1.5 pmol/g, mean ± SEM, control; 5.3±1.3 pmol/g, denervated), but not of VIP immunoreactivity in the choroid. Following colchicine treatment, VIP-immunoreactive neuronal cell bodies were localised in the choroid. The separate anatomical localisations and distributions of the two uveal peptides appear to be related to their different origins and functional roles in the response of the eye to noxious stimuli.To whom offprint requests should be sent