Inhibition of neurotensin release by a cyclic hexapeptide analog of somatostatin

Studies were performed to determine whether the cyclic hexapeptide analog of somatostatin, cyclo(N-Me-Ala-Tyr-D-Trp-Lys-Val-Phe) II, could alter circulating levels of neurotensin (NT) and inhibit the release of NT from small intestine following the intraluminal perfusion of lipid and ETOH. The small intestine of anesthetized rats was perfused with 0.9% NaCl, 1mM ETOH, 100 mM ETOH or 1 mM oleic acid with and without the intravenous infusion of the somatostatin analog. Plasma samples collected from the superior mesenteric vein were extracted, chromatographed on HPLC and assayed with both C-terminal and N-terminal antisera to NT. The basal circulating levels of chromatographically and immunochemically identified NT observed during the perfusion of the small intestine with 0.9% NaCl were significantly lower (p less than 0.01) during the IV infusion of the somatostatin analog as compared to animals infused IV with saline. The 2-3 fold increase in plasma levels of NT observed with the intestinal perfusion of oleic acid and ETOH did not occur in animals simultaneously infused IV with the somatostatin analog. The somatostatin analog was also effective in decreasing the basal levels of NT metabolite NT(1-8) as well as inhibiting the increase in this metabolite that accompanies the stimulated release of NT.     

Immunohistochemical localization of neurotensin in endocrine cells of the gut

Summary Endocrine cells displaying neurotensin immunoreactivity are found scattered in the jejuno-ileum of all mammals studied, including man. They are rather scarce in rat, guinea pig, rabbit and pig and fairly numerous in cat, dog and man. In most mammals the neurotensin cells predominate on the villi. Only in the dog are they more numerous in the crypts. In the chicken, neurotensin cells occur all along the intestinal tract. They are particularly numerous in the zone that joins the gizzard with the duodenum. The ontogeny of the neurotensin cells in the gut was studied in rats and chickens. In the rat, the cells are first observed in the jejuno-ileum immediately before birth. The adult frequency is reached 4–5 days later. In the chicken, neurotensin cells first appear in the colon in the 18 day old embryo and in the small intestine two days later (i.e. one or two days before hatching). A few days after hatching, the gut has achieved the adult number of neurotensin cells per unit area.     

Immunoreactive neurotensin and somatostatin in the chicken thymus

Summary Two distinct populations of endocrine cells in the chicken thymus display neurotensin and somatostatin immunoreactivity, respectively. Both cell types are few in number at hatching but proliferate rapidly during the first week. The neurotensin cells are Grimelius-positive and Hellerström-Hellmannegative. The somatostatin cells are Grimelius-negative and Hellerström-Hellman-positive. Both cell populations are non-argentaffin. The somatostatin-like material extracted from chicken thymus behaves immunochemically and chromatographically similar to synthetovine somatostatin, while the neurotensin-like material, from the thymus as well as from the gut, differs from synthetic bovine neurotensin in that it appears larger in size and more basic.     

Immunohistochemical localization of serine-protease inhibitors in the human placenta

Proteases and their inhibitors play a pivotal role in developmental and differentiative processes. In the present report we investigated the immunohistochemical localization of 1-antitrypsin, 1-antichymotrypsin and inter--trypsin inhibitor in first trimester as well as in term human placentas. For this purpose polyclonal antibodies against these serine-protease inhibitors were used. All inhibitors were expressed in the villous syncytiotrophoblast of first and last trimester placentas. Placental fibrinoid was positively stained for 1-antitrypsin and inter--trypsin inhibitor throughout gestation. 1-Antitrypsin and 1-antichymotrypsin showed a strong immunostaining in the Hofbauer cells (first trimester and full term placentas). Extravillous cytotrophoblast was negative for the three protease inhibitors throughout gestation. The presence of the three inhibitors in the syncytiotrophoblast suggests a role in coagulative, invasive and immunomodulatory processes. Fibrinoid, staining for 1-antitrypsin and inter--trypsin inhibitor, could also have an important immunoprotective function. The presence of protease inhibitors in the Hofbauer cells suggests an involvement of these cells in villous remodelling and differentiative processes.     

Development of the enteric nervous system,smooth muscle and interstitial cells of Cajal in the human gastrointestinal tract

The generation of functional neuromuscular activity within the pre-natal gastrointestinal tract requires the coordinated development of enteric neurons and glial cells, concentric layers of smooth muscle and interstitial cells of Cajal (ICC). We investigated the genesis of these different cell types in human embryonic and fetal gut material ranging from weeks 4–14. Neural crest cells (NCC), labelled with antibodies against the neurotrophin receptor p75^NTR, entered the foregut at week 4, and migrated rostrocaudally to reach the terminal hindgut by week 7. Initially, these cells were loosely distributed throughout the gut mesenchyme but later coalesced to form ganglia along a rostrocaudal gradient of maturation; the myenteric plexus developed primarily in the foregut, then in the midgut, and finally in the hindgut. The submucosal plexus formed approximately 2–3 weeks after the myenteric plexus, arising from cells that migrated centripetally through the circular muscle layer from the myenteric region. Smooth muscle differentiation, as evidenced by the expression of -smooth muscle actin, followed NCC colonization of the gut within a few weeks. Gut smooth muscle also matured in a rostrocaudal direction, with a large band of -smooth muscle actin being present in the oesophagus at week 8 and in the hindgut by week 11. Circular muscle developed prior to longitudinal muscle in the intestine and colon. ICC emerged from the developing gut mesenchyme at week 9 to surround and closely appose the myenteric ganglia by week 11. By week 14, the intestine was invested with neural cells, longitudinal, circular and muscularis mucosae muscle layers, and an ICC network, giving the fetal gut a mature appearance.A.S.W. is funded by a PhD studentship awarded to A.J.B. by the Child Health Research Appeal Trust.     

Characterization of macrophage-like cells in the external layers of human small and large intestine

Summary In the external layers of human small and large intestine macrophage-like cells were characterized by immunohistochemical, histochemical and electronmicroscopical methods. Using immunohistochemistry and a number of monoclonal antibodies, the presence and distribution of phenotypic subpopulations of macrophages were evaluated. In all locations macrophage-like cells were identified with antibody EBM11, which recognizes CD68 antigen, C3bi which recognizes CD11b, and partly with an antibody which recognizes protein 150,95 (CD11c). Macrophage-like cells in the external muscle layer were HLA-DR-positive (expressing the MHC class-II antigen), in contrast to macrophage-like cells in the subserosa and submucosa. Macrophage-like cells in the external muscle layer were mostly acid phosphatase-negative, and at the electron-microscopic level they were found to have features of macrophages: primary lysosomes, coated vesicles and pits. However, very few secondary lysosomes were present. Birbeck granules were not observed. It is concluded that in the external muscle layer of human small and large intestine numerous macrophages of a special type are present. It is discussed whether this cell type plays a role in gastrointestinal motility and/or has an immunological function.     

Immunohistochemical identification and localization of pancreatic polypeptide cells in the pancreas and gastrointestinal tract of the human fetus and adult man

Summary Pancreatic polypeptide (PP)-containing cells were detected by using anti-bovine PP (BPP) serum in the pancreas and gastrointestinal tract of human fetuses, premature infants and in the pancreas, antrum and jejunum of adult man obtained by biopsy from patients with normal gastroduodenal endoscopy. The localization was established by studying the distribution of PP cells in comparison to the distribution of glucagon-, somatostatin- and insulin cells. The first PP cells are seen in the pancreas at 10 weeks of gestation. They are located preferentially in the lower part of the head of the pancreas. The specificity of immunocytological reaction was ascertained by the inhibition of the reaction by bovine pancreatic polypeptide, glucagon and insulin did not modify the immunocytological reaction.     

Immunohistochemical analysis of steroid sulfatase in human tissues

Steroid sulfatase (EC 3.1.6.2) is an enzyme that removes the sulfate group from 3β-hydroxysteroid sulfates. This enzyme is best known for its role in estrogen production via the fetal adrenal–placental pathway during pregnancy; however, it also has important functions in other physiological and pathological steroid pathways. The objective of this study was to examine the distribution of steroid sulfatase in normal human tissues and in breast cancers using immunohistochemistry, employing a newly developed steroid sulfatase antibody. A rabbit polyclonal antiserum was generated against a peptide representing a conserved region of the steroid sulfatase protein. In Western blotting experiments using human placental microsomes, this antiserum crossreacted with a 65 kDa protein, the reported size of steroid sulfatase. The antiserum also crossreacted with single protein bands in Western blots of microsomes from two human breast cancer cell lines (MDA-MB-231 and MCF-7) and from rat liver; however, there were some size differences in the immunoreactive bands among tissues. The steroid sulfatase antibody was used in immunohistochemical analyses of individual human tissue slides as well as a human tissue microarray. For single tissues, human placenta and liver showed strong positive staining against the steroid sulfatase antibody. ER+/PR+ breast cancers also showed relatively strong levels of steroid sulfatase immunoreactivity. Normal human breast showed moderate levels of steroid sulfatase immunoreactivity, while ER−/PR− breast cancer showed weak immunoreactivity. This confirms previous reports that steroid sulfatase is higher in hormone-dependent breast cancers. For the tissue microarray, most tissues showed some detectable level of steroid sulfatase immunoreactivity, but there were considerable differences among tissues, with skin, liver and lymph nodes having the highest immunoreactivity and brain tissues having the lowest. These data reveal the utility of immunohistochemistry in evaluation of steroid sulfatase activity among tissues. The newly developed antibody should be useful in studies of both humans and rats.     

Rapid degradation of neurotensin by stimulated rat mast cells

A RIA towards neurotensin (NT) using C-terminal- and N-terminal-specific antisera was used to study degradation of this tridecapeptide by isolated rat mast cells. Incubation of NT (10 μM) with peritoneal or pleural mast cells resulted in a rapid loss of NT immunoreactivity (iNT), as measured by C-terminal-directed antiserum, with little effect on N-terminal iNT. The rate of the reaction was faster with pleural cells (T_1/2, 30 s) than with peritoneal cells (T_1/2, 180 s) and was > 10-fold slower in the presence of metabolic poisons. The enzyme(s) involved is most likely released from the cells during secretion, as NT was degraded by media conditioned by compound 48/80-stimulated mast cells 40–60 times faster than by media from unstimulated cells. This degradation by conditioned media was concentration dependent, pH dependent, and temperature sensitive. HPLC analyses indicated a near stoichiometric conversion of NT to NT(1–12) (66%) and NT(1–11) (34%) after incubation for 10–30 s with conditioned media. By 30 min only NT(1–11) and NT(1–10) were present. Phenanthroline (1 mM), an inhibitor of carboxypeptidase, prevented the loss of C-terminal iNT and the generation of NT(1–12) and NT(1–11). While NT(1–12) was effective in releasing histamine from mast cells in vitro and increasing vascular permeability in vivo, NT(1–11) was not. These results suggest that carboxypeptidase-like enzyme(s) could modulate the level and form of NT-related peptides in various states involving activation of mast cells.     

Immunohistochemical localization of endothelin in human vascular endothelial cells

The cellular localization of endothelin (ET), a novel vasoconstrictor peptide, was studied in human vascular tissues by immunohistochemistry. Distinct and diffuse staining for ET-like immunoreactivity was demonstrated in the cytoplasm of vascular endothelial cells, but not in smooth muscle cells or adventitial fibroblasts. The specificity was confirmed by the negative results following immunoabsorption. These findings suggest that human vascular endothelial cells function as an endocrine and/or paracrine cells for ET secretion.     

Immunohistochemical and ultrastructural localisation of peptide-containing nerves and myocardial cells in the human atrial appendage

Summary The innervation and myocardial cells of the human atrial appendage were investigated by means of immunocytochemical and ultrastructural techniques using both tissue sections and whole mount preparations. A dense innervation of the myocardium, blood vessels and endocardium was revealed with antisera to general neuronal (protein gene product 9.5 and synaptophysin) and Schwann cell markers (S-100). The majority of nerve fibres possessed neuropeptide Y immunoreactivity and were found associated with myocardial cells, around small arteries and arterioles at the adventitial-medial border and forming a plexus in the endocardium. Subpopulations of nerve fibres displayed immunoreactivity for vasoactive intestinal polypeptide, somatostatin, substance P and calcitonin gene-related peptide. In whole-mount preparations of endocardium, substance P and calcitonin gene-related peptide immunoreactivities were found to coexist in the same varicose nerve terminals. Ultrastructural studies revealed the presence of numerous varicose terminals associated with myocardial, vascular smooth muscle and endothelial cells. Neuropeptide Y immunoreactivity was localised to large electron-dense secretory vesicles in nerve terminals which also contained numerous small vesicles. Atrial natriuretic peptide immunoreactivity occurred exclusively in myocardial cells where it was localised to large secretory vesicles. The human atrial appendage comprises a neuroendocrine complex of peptidecontaining nerves and myocardial cells producing ANP.     

Immunohistochemical identification of T- and B-lymphocytes delineated by the unlabelled antibody enzyme method

Summary T-lymphocytes and B-lymphocytes are identified in tissue sections of human tonsils by applying the unlabelled antibody enzyme method. The epithelium of the tonsils contains a majority of immunoglobulin-positive cells and fewer T-lymphocytes. In the subepithelial zones, areas composed of B-cells predominate, however, regions containing T-lymphocytes are also present. The latter are mainly arranged in the lamina propria around high-endothelial venules and often include plasma cells containing immunoglobulin. Follicles containing germinal centres display a complex structure which changes during development. The lymphocytic cap consists of densely packed lymphocytes, labelled heavily by anti-IgM and anti-IGD, and of individual T-lymphocytes. Germinal centres show a framework of immunoglobulin-positive dendritic reticular cells; they contain some heavily labelled lymphoid cells and several cells weakly labelled by anti-IgM and anti-IgA, as well as a small number of T-lymphocytes. Furthermore, the total areas of T- and B-lymphocytes measured by planimetry may differ considerably between different tonsils. Especially total areas of germinal centres vary to a great extent. The quantitative data on amounts of T- and B-cells achieved by planimetry are comparable to those reported in cellular suspensions of tonsils.     

Immunohistochemical evidence for the heterogeneity of maternal and fetal vascular endothelial cells in human full-term placenta

The heterogeneity of endothelial cell surface antigen expression was studied in 5 human full-term placentae by means of indirect immunohistochemistry using 9 monoclonal antibodies and by staining with fluorescent-conjugated Ulex europaeus lectin, both of which are widely used endothelial cell markers. (1) A highly specific, homogeneous staining of fetal and maternal placental vessels of all sizes and anatomical regions was observed by the monoclonal antibodies PAL-E, QBEND10 and 1F10. These antibodies were even more specific than Ulex europaeus lectin, factor VIII antibody and von Willebrand factor antibody, which cross-reacted with some non-endothelial cells and structures. The reactivity of PAL-E, QBEND10 and 1F10 with residual surface cells of the basal plate strongly suggests an endothelial origin of these cells. (2) In contrast to other organs, PAL-E, QBEND10 and HM 15/3 strongly stained endothelial cells of the macrovascular system in the human placenta. This might indicate an organ-associated heterogeneity of fetal endothelial cells. (3) Monoclonal antibodies against receptors for transferrin and IgG (FcRII) labeled the endothelial cells of fetal placental vessels with increasing intensity distal to the insertion of the umbilical cord. The vessels of the umbilical cord itself were unreactive. This might suggest a heterogeneity of macro- and microvascular endothelial cells.     

Immunohistochemical localisation of pre-synaptic muscarinic receptor subtype-2 (M2r) in the enteric nervous system of guinea-pig ileum

The cholinergic muscarinic 2 receptor (M2r) is known to be present on smooth muscle cells in the intestine. Pharmacological studies also suggest that M2rs regulate transmitter release from nerves in the enteric nervous system. This study localised M2rs in the guinea-pig ileum using different antibodies and fluorescence immunohistochemistry. Double labelling with antibodies against neurochemical markers was used to identify the type of nerves bearing M2r. Guinea-pig ileum were fixed, prepared for sections and wholemounts and incubated with antisera against the M2r sequence. Tissue was double labelled with antibodies against neuronal nitric oxide synthase (nNOS), common choline acetyltransferase (cChAT), substance P (SP), synaptophysin and vesicular acetylcholine transporter (VAChT). Immunofluorescence was viewed using confocal microscopy. Abundant M2r-immunoreactivity (IR) was present on the surface of circular and longitudinal smooth muscle cells. M2r-IR was present in many but not all nerve fibres in the circular muscle and ganglia. M2r-IR was present in VAChT-IR and cChAT-IR cholinergic nerve fibres and SP-IR nerve fibres in the myenteric ganglia and submucosal ganglia. M2r-IR was present on a few nNOS-IR nerve fibres and around nNOS-IR neurons in the myenteric ganglia. In the circular muscle and deep muscular plexus, M2r-IR was present in many VAChT-IR and SP-IR nerve fibres and in few nNOS-IR nerves. M2rs are not only present on muscle cells in the intestine, but also on nerve fibres. M2rs may mediate cholinergic reflexes via their location on muscle and also via neural transmission. The pre-synaptic location supports pharmacological studies suggesting M2rs mediate neurotransmitter release from nerve fibres. The presence of M2rs on VAChT-IR, SP-IR and nNOS-IR-containing nerve fibres suggests M2rs may regulate ACh, SP and nitric oxide release. Work in this study was funded by the National Health and Medical Research Council (grant numbers: 114215 and 216704; Senior Research Fellowship to B.S.), a Melbourne University Research Scholarship and the Murdoch Children’s Research Institute.     

Involvement of dopamine in the central effect of neurotensin on intestinal motility in rats

The effects of intracerebroventricular (ICV) administration of neurotensin (NT) before a meal on intestinal postprandial motility were examined in conscious rats chronically fitted with intraparietal Nichrome electrodes in the duodeno-jejunum. The effects were compared with those of two analogues, [D-Tyr¹¹]NT and [D-Trp¹¹]NT, resistant to degradation by brain peptidases. NT (10 μg ICV) delayed the occurrence of postprandial disruption of duodenal motility and blocked it on the jejunum. [D-Tyr¹¹]NT and [D-Trp¹¹]NT (1 μg ICV) elicited the same effects but at a ten-fold lower dose. NT administered peripherally just before a meal significantly lengthened the duration of the postprandial motor pattern. The central effect of NT on the fed pattern involved dopaminergic neurons as it was mimicked by dopamine, blocked by haloperidol and partly antagonized by either sulpiride or (+) SCH 23390. It is concluded that: 1) both D₁ and D₂ receptors are involved in the blocking effect of the postprandial disruption induced by central NT; 2) that [D-Tyr¹¹]NT and [D-Trp¹¹]NT are potent agonists at NT receptors in the brain.     

Endocrine cells in the human fetal small intestine

Summary In this report we describe the time of appearance and ultrastructural features of enteroendocrine cells (EECs) in the human fetal small intestine (SB) between 9 and 22 weeks gestation. Thirteen distinctive EECs were identified in fetal SB. Two of these, not found in normal adult SB, appeared within the stratified epithelium of the proximal SB at 9–10 weeks. They were arbitrarily termed primitive and precursor cells. As in all fetal EECs, the pale cytoplasm of the primitive cell contains a distinctive population of secretory granules (SGs). Primitive cell SGs average 200–330 nm; some have dense cores with lucent halos while others are filled with a homogeneous dense or flocculent material. The SGs of the precursor cells are larger, averaging up to 1 m in diameter and their contents vary in electron density. A third group of cells not described in normal adult SB was arbitrarily termed transitional cells. These have two populations of SGs; one resembles the SGs of the precursor cells, and the other resembles the SGs of some of the specific adult type EECs. Transitional EC, S, I and G cells are seen. In addition, mature appearing EC, S, G, I, L, D, and D₁ cells were identified by 12 weeks of gestation. The primitive, precursor, and transitional cells may represent sequential developmental precursors of adult type EECs.Supported by Research Grant AM-17537 from the National Institutes of Health, Besthesda, MarylandThe authors would like to thank Ms. Linda Barstein for her excellent technical assistance     

Ultrastructural identification of a new cell type — the N-cell as the source of neurotensin in the gut mucosa

The neurotensin-cell is identified immunohistochemically and ultrastructurally by differential counting of endocrine cells in the gut of a primate (Tupaia belangeri). Utilizing light microscopy, the EC-cells are identified by the Masson-Fontana silver stain; with the same method the neurotensin cells are not stained. The other endocrine cells have been quantified in the small intestine using the peroxidase-antiperoxidase stain with antisera against glucagon, somatostatin, cholecystokinin, gastrin, secretin, pancreatic polypeptide, gastric inhibitory peptide and neurotensin. In the ileal mucosa of Tupaia, the most frequent endocrine cell is the EC-cell followed by the glucagonoid cell, (L-cell). The immunoreactive neurotensin cell represents the third most frequent endocrine cell in this region. On the ultrastructural level, this third most frequent endocrine cell is a heretofore undescribed cell, the N-cell, containing electron dense secretory granules measuring 335 +/- 87 nm in diameter.     

MUC4 expression and localization in gastrointestinal tract and skin of human embryos

MUC4 is a heterodimeric membrane mucin, composed of two tightly linked subunits and implicated in the protection of wet-surfaced epithelia. Although human MUC4 and its rat analogue Muc4/sialomucin complex have been extensively studied in the adult human and in the adult and embryonic rat, respectively, there has been little attention paid to date to the human embryo. Based on studies with our monoclonal antibody 1G8 and commercial tissue arrays, we describe some unexpected features of the expression of MUC4 in human embryonic epithelia. In the human small intestine and colon, MUC4 appears at an earlier relative stage of development, compared to gestation time, than in the rat. Interestingly, MUC4 also appears in the embryo in the skin, then disappears late in gestation, consistent with its absence in adult skin. These results are consistent with an important protective role for MUC4 in the human embryo that is different from that in the rat or in the adult human.     

人胎大肠氮能神经元发育的研究

用NADPH-d组织化学法对人胎大肠氮能神经元的发育进行了观察.结果表明第5个月胎龄时,肌间神经节处圆形细胞中部分细胞出现一氧化氮合酶(NOS)阳性反应,并分化成氮能神经细胞.第6个月胎龄时,氮能神经元胞体增大,突起伸长,在肌层、粘膜下层和肠腺基部出现氮能神经纤维分布.第7个月胎龄时,氮能神经元生长发育达到高峰,肌间神经节细胞数目增多,环肌层神经纤维分布密度增加,膨体结构明显.第8-10个月胎龄时,氮能神经元染色强度加深,其胞体分布以肌间神经节最多,粘膜下层和内环肌层较少.氮能神经纤维的分布密度以内环肌层最高,粘膜下层和外纵肌层次之,粘膜层较低.本研究揭示了大肠氮能神经元发育的变化规律.     

Dynamic regulation of mitochondrial function in preimplantation embryos and embryonic stem cells

Mitochondrial function is dependent upon regulation of biogenesis and dynamics. A number of studies have documented the importance of these organelles in both preimplantation embryos and embryonic stem cells (ESCs), however it remains unclear how mitochondria respond to their immediate microenvironment through modulation of morphology and movement, or whether perturbations in these processes will have a significant impact following differentiation/implantation. Here we review existing literature on two key aspects of nuclear–mitochondrial cross-talk and the dynamic processes involved in mediating mitochondrial function through regulation of mitochondrial biogenesis, morphology and movement, with particular emphasis on embryos and ESCs.