Contractile proteins in pericytes. I. Immunoperoxidase localization of tropomyosin

In these studies we have compared the relative amounts and isoforms of tropomyosin in capillary and postcapillary venule pericytes, endothelial cells, and vascular smooth muscle cells in four rat microvascular beds: heart, diaphragm, pancreas, and the intestinal mucosa. The results, obtained by in situ immunoperoxidase localization, indicate that (a) tropomyosin is present in capillary and postcapillary venule pericytes in relatively high concentration; (b) the tropomyosin content of pericytes appears to be somewhat lower than in vascular smooth muscle cells but higher than in endothelia and other vessel-associated cells; and (c) pericytes, unlike endothelia and other nonmuscle cells, contain detectable levels of tropomyosin immunologically related to the smooth muscle isoform. These results and our previous findings concerning the presence of a cyclic GMP-dependent protein kinase (Joyce, N., P. DeCamilli, and J. Boyles, 1984, Microvasc. Res. 28:206-219) in pericytes demonstrate that these cells contain significant amounts of at least two proteins important for contraction regulation. Taken together, the evidence suggests that pericytes are contractile elements related to vascular smooth muscle cells, possibly involved, as are the latter, in the regulation of blood flow through the microvasculature.     

Contractile proteins in pericytes at the blood-brain and blood-retinal barriers

Evidence from a variety of sources suggests that pericytes have contractile properties and may therefore function in the regulation of capillary blood flow. However, it has been suggested that contractility is not a ubiquitous function of pericytes, and that pericytes surrounding true capillaries apparently lack the machinery for contraction. The present study used a variety of techniques to investigate the expression of contractile proteins in the pericytes of the CNS. The results of immunocytochemistry on cryosections of brain and retina, retinal whole-mounts and immunoblotting of isolated brain capillaries indicate strong expression of the smooth muscle isoform of actin (α-SM actin) in a significant number of mid-capillary pericytes. Immunogold labelling at the ultrastructural level showed that α-SM actin expression in capillaries was exclusive to pericytes, and endothelial cells were negative. Compared to α-SM actin, non-muscle myosin was present in lower concentrations. By contrast, smooth muscle myosin isoforms, were absent. Pericytes were strongly positive for the intermediate filament protein vimentin, but lacked desmin which was consistently found in vascular smooth muscle cells. These results add support for a contractile role in pericytes of the CNS microvasculature, similar to that of vascular smooth muscle cells.     

Immunocytochemical evidence for the presence of two domains in the plasma membrane of sea urchin blastomeres

Summary The blastomeres of sea urchin embryos have two surface regions with different properties. Numerous microvilli are present in the apical surface region, while the baso-lateral surface region, either on adjoining adjacent cells or facing the blastocoel, is smooth. When blastomeres are isolated from embryos and stained with fluorescein-isothiocyanate-labelled anti-(egg surface) antibody (anti-ES) prepared against membranes isolated from fertilized eggs, the apical microvillous region fluoresces while the smooth region does not [Yazaki I (1984) Acta Embryol Morphol Exp 5∶3–22]. In order to study quantitatively the ‘bindability’ of the membrane in the two regions to anti-ES, immunoelectron microscopy was used. Blastomeres isolated from embryos ofHemicentrotus pulcherrimus at the eight-cell stage were treated with rabbit anti-ES serum or pre-immune serum and then with ferritin-conjugated goat anti-(rabbit IgG) for 10 min at 0°C, mainly before fixation. About 10 times (maximally 45 times) more ferritin particles were counted per contour length in the microvillous surface region than in the smooth surface region. These results suggest that the membrane of the blastomeres of sea urchin embryos is a mosaic of two different membrane territories: one represented by the microvillous surface originating from the unfertilized egg, which binds anti-ES, the other by the smooth surface newly organized after the first cleavage, which does not react with anti-ES. The mechanism of segregation of the membrane into these two regions is discussed.     

Immunocytochemical evidence for the presence of oxytocin in rat testis

Summary The presence of oxytocin, vasopressin and neurophysin in the testis of adult Wistar and Brattleboro rats has been examined immunocytochemically. After fixation in modified Bouin's solution, or Bouin's sublimate fixative, immunostaining was accomplished with the peroxidase-antiperoxidase method. The presence of immunoreactive oxytocin was demonstrated in 80% of the interstitial cell population of both rat strains while no staining was observed for vasopressin or neurophysin.     

Never ending growth and a growth factor. II. Immunocytochemical evidence for the presence of epidermal growth factor in a tapeworm

Flatworm growth patterns are interesting and the guiding principles behind them have long been sought. Epidermal growth factor immunoreactivity (EGF-IR) was detected in a dispersed population of nerve cells of the constantly growing adult gull-tapeworm Diphyllobothrium dendriticum (Cestoda, Pseudophyllidea). The EGF-IR cells are located close to regions characterized by active growth and the presence of mitotically competent cells. As no EGF-IR was observed in the non-growing plerocercoid larva a correlation with the growth rate of the worm and the presence of EGF-IR is suggested.     

Human corpus luteum: Immunocytochemical evidence for presence of prolactin

Summary Six human corpora lutea (day 17–25) of the menstrual cycle and 4 ovarian stromal tissues from 7 cycling women were examined for the presence of the hormone, prolactin, by immunohistochemistry using the indirect peroxidase-antiperoxidase method. After mounting tissue sections of 4 m, endogenous peroxidases were removed with hydrogen peroxide and the sections were incubated for l h at room temperature followed by 16 h at 4° C with a highly specific antisera for human prolactin, nonimmunized normal rabbit serum for a control reaction, or antiserum preadsorbed with excess human prolactin for specificity determination. Following the reaction with the second antibody (goat antirabbit IgG) for l h at room temperature, prolactin was localized using peroxidase anti-peroxidase and 3.3-diaminobenzidine as the chromogen. Prolactin was present and could be localized in the luteal cells of all 6 corpora lutea, but not in any of the ovarian stroma studied. Human adenohypophysis served as a positive tissue control for prolactin immunopositive staining. The localization of immunoreactive prolactin in the corpus luteum demonstrates directly the presence of this hormone in the human ovary, adding further evidence for its role in luteal function.     

Immunocytochemical evidence for the presence of an albumin-like substance in the rat pineal gland

Summary Two rabbits and two guinea pigs were immunized with arginine vasotocin (AVT) conjugated to bovine albumin with glutaraldehyde. Only one preparation of antiserum (anti-G 7) was of value. Anti-G 7 immunochemically defined the same rat pineal cells previously reported as presumptive AVT cells. However, absorption of anti-G 7 with bovine albumin inhibited the staining of the pineal cells demonstrating that they contained an albumin-like substance. Positive immunochemical staining of the rat pars nervosa suggested that anti-G 7 contained antibodies able to react with arginine vasopressin (AVP). Loss of a positive reaction in the posterior lobe on absorption of anti-G 7 with AVT or AVP confirmed this. However, the addition of AVT to anti-G 7 failed to inhibit the immunochemical staining of the pineal cells. This study reports the presence of an albumin-like substance in pineal cells previously described as presumptive AVT cells, and discusses possible explanations for the inability of anti-G 7 to recognize immunocytochemically the native AVT molecule. Confirmation of AVT in the pineal gland by immunocytochemistry must await the availability of more specific antisera.     

Immunocytochemical evidence for vasopressin receptors.

An electron microscopic study was made of mouse pituitaries immunocytochemically stained with anti-lysine vasopressin (LVP) as the primary antiserum in the unlabeled antibody peroxidase-anti-peroxidase procedure. Vasopressin (VP) was identified in the neurosecretory granules of the neural lobe which stained with peroxidase anti-peroxidase molecules. Electron density was induced in secretory granules of the pars intermedia (PI), both in the melanocyte stimulated hormone and ACTH cell types, probably indicating VP molecules attached to binding (receptor) sites. Omission of anti-LVP abolished staining both in the neural lobe and the PL Anti-LVP absorbed with antigen, by admixing with LVP, abolished staining in the neural lobe but not in the PI; according to optical density measurements the PI showed a +/- 22% staining increase over controls. Staining intensity in the PI probably reflects occupancy of binding (receptor) sites for VP. Exposure of PI granules to LVP before the usual staining sequence resulted in +/- 48% increased staining. In water-deprived mice with high endogenous VP titers, staining was +/- 33% and +/- 40% more intense than in normal mice. Solid phase absorbed and eluted antibodies to LVP provided additional proof that staining in both neural lobe and PI could be attributed to anti-LVP. Results indicate that binding or receptor sites for VP are located on secretory granules in the PL Possible physiological significance is discussed.     

Immunocytochemical evidence for the presence of enzymes synthesizing GABA and GHB in the same neuron

A specific and sensitive immunocytochemical double staining for visualization of glutamate decarboxylase (GAD) and semialdehyde succinate reductase (SSR₂) in the same brain section has been developed. SSR₂ is the enzyme responsible for the transformation of succinic semialdehyde into γ-hydroxybutyrate (GHB). GAD was detected using specific rabbit GAD-antibodies and unlabeled antibody enzyme peroxidase antiperoxidase, and SSR₂ using specific guinea-pig SSR₂ antibodies conjugate to a fluorescein-labeled second antibody. The coexistence of GAD and SSR₂ in the same neuron was demonstrated by a peroxidase reaction superimposed on fluorescent compounds. Cell bodies containing both antigens were observed in the cerebellum, dorso-median hypothalamus and raphe nuclei. GHB is present in most GABA containing neurons. Some neurons contain only SSR₂; these neurons may synthesize GHB by an active uptake of GABA.     

Immunocytochemical localization of two retinoid-binding proteins in vertebrate retina

The recent discovery and characterization of several proteins that purify with endogenous, bound retinoid have given rise to the suggestion that these proteins, which are abundant in retina, perform a role in transport and function of vitamin A. Immunocytochemical techniques were used to localize two retinoid-binding proteins in the retina of four species. Antisera to cellular retinal-binding protein (CRALBP) and an interphotoreceptor retinoid-binding protein (IRBP) were obtained from rabbits immunized with antigens purified from bovine retina. Antibodies from each antiserum reacted with a single component in retinal homogenates and supernatants which corresponded to the molecular weight and charge of the respective antigen (non-SDS and SDS PAGE, electrophoretic transfer to nitrocellulose, immunochemical staining). Immunocytochemistry controls were antibodies from nonimmune serum and antibodies absorbed with purified antigen. Antigens were localized on frozen-sectioned bovine, rat, monkey, and human retina using immunofluorescence and the peroxidase-antiperoxidase technique. Specific staining with anti-IRBP was found in the space that surrounds photoreceptor outer segments, with heaviest labeling in a line corresponding to the retinal pigment epithelium (RPE) apical surface. Cone outer segments were positive. Staining with anti-CRALBP was found in two cell types in all species: the RPE and the Muller glial cell. Within the RPE, labeling filled the cytoplasm and was heaviest apically, with negative nuclei. Labeling of Muller cells produced Golgi- like silhouettes with intense staining of all cytoplasmic compartments. Staining of the external limiting membrane was heavy, with labeled microvilli projecting into the interphotoreceptor space. Localization of IRBP to this space bordered by three cell types (RPE, photoreceptor, and Muller) is consistent with its proposed role in transport of retinoids among cells. Localization of CRALBP in RPE corroborates previous biochemical studies; its presence in the Muller cell suggests that this glial cell may play a hitherto unsuspected role in vitamin A metabolism in retina.     

Immunohistochemical evidence for the presence of calcium-binding proteins in enteric neurons

Summary Immunoreactivity for vitamin D-dependent calcium-binding protein (CaBP) has been localized in nerve cell bodies and nerve fibres in the gastrointestinal tracts of guinea-pig, rat and man. CaBP immunoreactivity was found in a high proportion of nerve cell bodies of the myenteric plexus, particularly in the small intestine. It was also found in submucous neurons of the small and large intestines. Immunoreactive nerve fibres were numerous in the myenteric ganglia, and were also common in the submucous ganglia and in the intestinal mucosa. Immunoreactive fibres were rare in the circular and longitudinal muscle coats. In the myenteric ganglia of the guinea-pig small intestine the immunoreactivity is restricted to one class of nerve cell bodies, type-II neurons of Dogiel, which display calcium action potentials in their cell bodies. These neurons were also immunoreactive with antibodies to spot 35 protein, a calcium-binding protein from the cerebellum. From the distribution of their terminals and the electrophysiological properties of these neurons it is suggested they might be sensory neurons, or perhaps interneurons. The discovery of CaBP in restricted sub-groups of enteric neurons may provide an important key for the analysis of their functions.     

Immunocytochemical evidence for glucagon-containing cells in the human stomach.

To determine if glucagon-containing cells could be identified in the human fundus, stomachs attained at autopsy within 4-hours of death from persons previously considered to be in good health were examined by the indirect immunoperoxidase technique using antiglucagon serum 30K. Glucagon-containing cells were demonstrated in one of eight gastric fundi examined. The glucagon content of acid alcohol extracts of the fundi examined. The glucagon content of acid alcohol extracts of the funci was low in all cases. Glucagon content was also low in canine stomach removed 4-hours after death. It is concluded that glucagon-containing cells, demonstrable by immunocytochemical techniques, may be present in the gastric fundus of humans.     

Endothelial cell protrusions in the rat aortic wall. Immunocytochemical evidence for an alternative transendothelial passage of plasma proteins.

Focal morphological changes in the endothelial lining were observed in the aortic wall of control rats. They consisted of endothelial cytoplasmic projections and vacuolar structures protruding towards the luminal space and containing electron-dense material. Some of these structures were observed to open into the subendothelial space. Endogenous albumin was detected in these compartments by applying protein A-gold immunocytochemistry to thin tissue sections of glutaraldehyde-fixed, Lowicryl-embedded aortic segments. The labelling was mainly distributed along the plasma membrane of the projections as well as over the dense content of the endothelial protrusions. The presence of endogenous albumin in these endothelial structures, together with their opening into the subendothelial space, suggests a role for these structures in an alternative transendothelial transport of albumin.     

Immunocytochemical evidence for the presence of oxytocin and neurophysin in the large cells of the bovine corpus luteum

Summary The presence of neurophysin, oxytocin and vasopressin in the bovine corpus luteum was examined immunocytochemically. Tissue blocks of corpora lutea from pregnant and non-pregnant animals were fixed with glutaraldehyde/paraformaldehyde fixative and immunostained by the peroxidase-antiperoxidase (PAP) method. The simultaneous presence of immunoreactive oxytocin and immunoreactive oxytocin-neurophysin was demonstrated in large luteal cells of non-pregnant animals, while no staining for vasopressin or vasopressin-neurophysin was observed. None of the peptides were detected in the corpus luteum of pregnant animals. The small luteal cells were not found to be stainable at any time.     

Immunocytochemical evidence for the presence of S-100 protein in insulin-containing cells of cultured fetal rat islets

S-100 protein was long considered to be specific to glial and Schwann cells, but was subsequently proved to be present in various organs. In particular, S-100 proteinimmunoreactivity was demonstrated in the parathyroid gland, adenohypophysis and endocrine pancreas. In the present study cultured fetal rat islets were investigated in view of the possible presence of S-100 protein immunoreactivity in their cells. In the initial 5-day period, continuity between islets and ducts could be demonstrated, and the islets appeared to bud from the ducts. During this time, S-100 protein-immunoreactive cells were found in either the budding islets or ducts. The colocalization of S-100 protein and insulin was demonstrated immunocytochemically. In contrast, the newly formed islets from endocrine monolayers did not display S-100 protein immunoreactivity. After this initial period, numerous free-floating islets were observed, but only some of them contained S-100 protein immunoreactivity. S-100 protein-immunoreactive cells had the same distribution as those storing insulin, again suggesting the coexistence of the two peptides. The results suggest that S-100 protein might be involved in the regulation of islet function.     

Immunocytochemical evidence for the presence of a mutant vasopressin precursor in the supraoptic nucleus of the homozygous Brattleboro rat

Summary CP-14, a tetradecapeptide from the predicted mutant vasopressin precursor in the homozygous Brattleboro rat was detected immunocytochemically in the supraoptic nucleus of homozygous Brattleboro but not normal rats. The staining was localized to the periphery of the perikarya. CP-14 immunoreactivity was not found in the neural lobes, paraventricular nuclei, accessory nuclei or suprachiasmatic nuclei of either homozygous Brattleboro or normal rats. Vasopressin immunoreactivity was found in the neural lobe and in the perinuclear region of neurons of the supraoptic, paraventricular, suprachiasmatic and accessory nuclei of normal rats. Vasopressin immunoreactivity was also found in homozygous Brattleboro rats, mainly in the ventral part of the supraoptic nucleus: densely stained solitary cells were found amongst other faintly stained perikarya. In both cell-types the staining was mainly in the periphery of the perikarya. No vasopressin immunoreactivity was detected in the paraventricular nuclei, suprachiasmatic nuclei, accessory nuclei or neural lobe of homozygous Brattleboro rats.CP-14 and vasopressin immunoreactivities were found to be co-localized; both were present in the periphery of the same perikarya of the supraoptic nuclei of homozygous Brattleboro rats. Differential staining was found with antioxytocin serum in both normal rats and homozygous Brattleboro rats: separate neurons were stained for either oxytocin or vasopressin and CP-14. Immunoreactive oxytocin was found mainly in the perinuclear region of the neurons from the supraoptic, paraventricular and accessory nuclei.     

Immunocytochemical demonstration of two vitamin D-dependent calcium-binding proteins in mammalian kidney

Distribution of vitamin D-dependent calcium-binding proteins (CaBPs) were studied in four mammalian species using monospecific antibodies raised against chick duodenal CaBP (D-CaBP), human cerebellar CaBP (L-CaBP), and rat duodenal CaBP (S-CaBP). The immunoperoxidase technique of unlabelled antibodies was employed. The distribution of D-CaBP/L-CaBP was identical in all the species studied except for the monkey. In the rat, pig, and human nephrons, D-CaBP/L-CaBP was seen in the cytoplasm of the cells of the distal convoluted tubules, initial segments of the collecting ducts and interspersed cells of the collecting ducts. Proximal convoluted tubules, glomeruli and maculae densae were negative. In the monkey, in addition to the cells of the distal convoluted tubules, the cells along the entire length of the collecting ducts were also strongly positive. S-CaBP was found to be species-specific, and hence positive results were obtained only in the rat nephron. The strongest positive reaction for S-CaBP was seen in the cells of the distal convoluted tubules. These same cells were also positive for D-CaBP/L-CaBP. S-CaBP was also detected in the cells of the thick ascending limb of the loop of Henle, along the entire length of the collecting ducts and in smaller amounts in cells of the macula densa. Intracellularly the S-CaBP was present only in the apical cytoplasm of positive cells. D-CaBP/L-CaBP stained the entire cytoplasm but the staining in the apical cytoplasm was denser.