Alpha melanocyte stimulating hormone inhibits immunostimulatory and inflammatory actions of interleukin 1

The ability of interleukin 1 (IL 1) to augment the proliferation of murine thymocytes in vitro was inhibited in a dose-dependent manner by the neuropeptide alpha-melanocyte-stimulating hormone (alpha MSH). The minimal effective concentration of alpha MSH was 10(-11) M. Maximal effect occurred between 10(-8) and 10(-7) M, with diminishing effectiveness at higher concentrations. IL 1-induced production of prostaglandin E (PGE) by fibroblasts was also inhibited by alpha MSH with a biphasic dose response. The minimal effective concentration was 10(-11) M, and maximum effect was achieved at 10(-10) M. alpha MSH appeared to affect the interaction of IL 1 with its target cells in a specific manner, because it did not inhibit basal mitogen-induced thymocyte proliferation or IL 2-induced proliferation of a cytotoxic T lymphocyte line. Furthermore, production of IL 1 by endotoxin-stimulated monocytes was not affected by alpha MSH. An analog of alpha MSH (Nle4, D-Phe7 alpha MSH), which is highly potent in other melanotropin-sensitive systems, did not affect the action of IL 1 on thymocytes, suggesting that the immunomodulatory effects of alpha MSH may not be mediated by the classic melanocyte alpha MSH receptor. The influence of alpha MSH on thymocytes and fibroblasts suggests that alpha MSH is an endogenous antagonist of IL 1, perhaps important for limiting inflammatory damage to host tissues.     

Immunocytochemical Study of Microtubules in Chromaffin Cells in Culture and Evidence That Tubulin Is Not an Integral Protein of the Chromaffin Granule Membrane

Abstract Bovine adrenal chromaffin cells were maintained in culture in Dulbecco's modified Eagle's medium containing 20% foetal calf serum and 10 units per ml of Nerve Growth Factor. Under these conditions, chromaffin cells developed up to five neurites per cell. The neurites showed lateral branches and varicosities along their trunk which ended with thick growth cone-like structures. Cultures of chromaffin cells were stained by indirect immunofluorescence with antibodies against (a) chromogranin A to follow the distribution of chromaffin granules, the catecholamine-storing organelles, and (b) tubulin, to study the microtubular system during outgrowth of neurites. Chromogranin A antibodies showed a very intensely staining punctate pattern, not randomly distributed but localized in neurites. Chromaffin granules were found to migrate from the cell body to reach neurite endings where they were densely packed. Intense staining was also observed in varicosities; a linear arrangement of granules was evident along neurite trunks. Tubulin antibodies decorated a complex network, clearly visible at the cell periphery and also in the growth cone-like structures, in the palm region of the growth cone. Colchicine treatment effected retraction of neurites and disappearance of organized microtubule networks; chromaffin granules were found in the perinuclear region of the cell. Some tubulin (0.2% of total membrane proteins) was found in the purified chromaffin granule membrane preparation; however, this tubulin is probably associated with contaminating plasma membranes. By the criteria of morphology and staining with antitubulin antibodies, adult bovine chromaffin cells in culture display characteristics similar to those of sympathetic neurones. In addition, they showed an exaggerated transport of granules. Adult bovine chromaffin cells in culture offer an excellent model for studying the role of microtubules and the contractile apparatus in relation to cell morphological changes and neurosecretion.     

Nerve Growth Factor and glucocorticoids regulate phenotypic expression in cultured chromaffin cells from adult rhesus monkeys

Adrenal chromaffin cells and sympathetic neurons are both derivatives of the neural crest. Despite their morphological and functional differences, chromaffin cells retain some developmental plasticity and if treated with Nerve Growth Factor (NGF), can express certain characteristics of sympathetic neurons. However, there is some age and species variability in the response of chromaffin cells to NGF: in general chromaffin cells from adult animals are not considered to be dependent on NGF for survival, and chromaffin cells from adults of several species fail to respond to NGF in vitro by growing neurites. This is in contrast to the dramatic effects of NGF on chromaffin cells from perinatal rats. We have examined the requirements of chromaffin cells from adult rhesus monkeys to survive, to proliferate, and to express a neuronal morphology in vitro. NGF greatly enhances the proportion of rhesus chromaffin cells that form neurites and the length of the neurites that are formed, but the conversion to a neuronal phenotype is more limited than in chromaffin cells cultured from young rats. NGF also enhances rhesus chromaffin cell survival, but fails to stimulate their proliferation, in contrast to its effect on perinatal rat cells [18]. Glucocorticoid hormones (GCs) specifically antagonize the effects of NGF on neuritic outgrowth while promoting chromaffin cell survival. Thus adrenal chromaffin cells from rhesus monkeys retain a degree of developmental plasticity even in the adult animal.     

Stimulatory control by oxytocin (or an analog peptide) of the pituitary intermediate lobe in rabbits. Inhibitory role of serotonin

The peculiar innervation of the intermediate lobe (IL) in Leporidae obviously corresponds to a regulation mechanism different from that known in other mammals. Physiological observations on IL superfused in vitro show, in addition to the previously reported absence of dopaminergic inhibitory control, the existence of an oxytocinergic-like control involved in the stimulation and not in the inhibition of alpha MSH release by the rabbit IL. Serotonine has inhibitory effects and may play a modulatory role. However, the strong stimulation of alpha MSH release obtained with K+ at a depolarizing concentration (8K) suggests that the presence of any powerful inhibitory axonal system in the rabbit IL is rather unlikely.     

Evidence for increased alpha MSH receptor binding in the F1 variant of B16 melanoma cells grown in dialyzed fetal calf serum

The specific binding of an alpha MSH analogue (Ac-[Nle4, D-Phe7] alpha MSH4-11 NH2) was enhanced in the presence of 10% dialyzed fetal calf serum (FCS) as compared with 10% FCS (nondialyzed) in the F1 variant of B16 melanoma cells. The replenishment of dialyzed serum with adrenocorticotrophic hormone (ACTH) or insulin had no effect on the increased level of alpha MSH receptor binding in these cells. However, 10 nM alpha MSH or 1 microM ACTH under identical conditions significantly decreased the level of alpha MSH binding. Competitive binding studies involving the alpha MSH analogue revealed that the specificity of the receptor was restricted to the complete molecule of alpha MSH, our analogue, beta MSH and ACTH1-24, ACTH4-10, which contains the amino acid sequence responsible for biological activity, showed a very low affinity for the receptor. Furthermore, we observed an interesting phenomenon unique to dialyzed FCS in that once the cells were grown to confluence and melanin was produced, the cells were no longer viable. However, in McCoy's medium, which is deficient in tyrosine, the cells did not produce melanin and remained viable.     

Glial-cell-line-derived neurotrophic factor induces nerve fibre formation in primary cultures of adrenal chromaffin cells

Neurotrophic factors, such as nerve growth factor (NGF), have been shown to promote the differentiation of neural crest neuroblasts into sympathetic neurons, whereas glucocorticoids promote the endocrine phenotype of adrenal medullary chromaffin cells. This pluripotency is preserved to some extent in adult chromaffin cells, with NGF and other neurotrophic factors influencing the differentiation of these cells. In this study, the effects of glial cell line-derived neurotrophic factor (GDNF) on explanted chromaffin tissue have been investigated. The localization of mRNAs corresponding to the two components of the GDNF receptor, GDNF family receptor alpha 1 (GFRalpha1) and Ret, were demonstrated in adult adrenal medullary ganglion cells. GFRalpha1 mRNA was expressed in explanted chromaffin tissue at levels dependent on the presence of serum in the medium but decreased on the addition of blocking antibodies against transforming growth factor beta (TGFbeta). However, TGFbeta1 (1 ng/ml) did not upregulate GFRalpha1 mRNA expression when added to serum-free medium. GDNF induced neurite formation from chromaffin cells, as measured by the ratio of neurite-bearing versus total number of chromaffin cells in primary cultures of adult adrenal medulla. The most potent dose inducing neurites from chromaffin cells was 100 ng/ml GDNF. However, this dose was not as efficient as that seen when chromaffin cells were stimulated with NGF (100 ng/ml). Thus, adrenal medullary cells express mRNAs for the GDNF receptor components Ret and GFRalpha1, increase their expression upon being cultured in serum-containing medium and respond to GDNF treatment with an increase in the number of cells that develop nerve processes.     

The utility of antisera to different synthetic adrenocorticotrophins (ACTH) and melanotrophins (MSH) for immunocytochemical staining of the dog pituitary gland

Using the immunoperoxidase technique and specific antisera to synthetic ACTH beta (1-24), ACTH beta (17-39) and bMSHbeta1, selective immunocytochemical staining was localized in a distinctive cell type in the pars distalis and pars tuberalis of the dog pituitary gland. Except for a rare cell, the pars distalis and pars tuberalis did not stain with an anti-bMSH alpha serum. In the pars intermedia immunoreactive cells containing ACTH beta(1-24), ACTHbetap(17-39), bMSHbeta and/or bMSH alpha were observed. The specificity and validity of the antisera were demonstrated by elimination of their immunostaining capacity after prior absorption with their respective antigens, while absorption with other antigens failed to decrease staining intensity. The cytoplasm of the ACTH/MSH cells showed a positive reaction to periodic-acid-Schiff and assumed a pale aniline blue colour, whilst the granules were stained with carmoisine L and acid alizarine blue. These ACTH/MSH cells were further differentiated from other functional cell types of the pars distalis on the basis of their typical cytological features, intraglandular distribution and by immunochemical double staining. It is concluded that ACTH and MSH beta were present and most probably produced by the corticomelanotrophs of the pars distalis and pars tuberalis. In addition to corticomelanotrophs analogous to those of the pars distalis and pars tuberalis, the pars intermedia showed many cells which contain MSH alpha alone or together with MSH beta and/or ACTH.     

Expression of interleukin 1 receptors on human peripheral T cells

The expression of interleukin 1 receptors (IL 1R) on human peripheral T cells was studied by the binding assay with 125I-labeled recombinant human interleukin 1 (IL 1) alpha and IL 1 beta and by the flow cytofluorometry with the fluorescein isothiocyanate (FITC)-conjugated IL 1 alpha. Peripheral blood lymphocytes expressed only few IL 1R without any stimulations. When they were stimulated with concanavalin A (Con A), IL 1R-positive cells began to increase by 4 hr, reached the maximum level at 48 hr, and then gradually decreased. The kinetics of the expression of IL 1 alpha R and IL 1 beta R showed the same pattern. Furthermore the binding of 125I-labeled IL 1 alpha to IL 1R on T cells was inhibited by the addition of either cold IL 1 alpha or IL beta, but not by interleukin 2 or interferons. The similar results were observed in the binding of 125I-labeled IL 1 beta. These results suggest that IL 1R on human peripheral T cells reactive for IL 1 alpha and IL 1 beta were identical. By Scatchard plot analysis, the numbers of IL 1R were estimated as 40 and 350 molecules per cell before and after Con A stimulation, respectively, and their Kd values were 3.1 X 10(-10) M and 2.8 X 10(-10) M. When purified T cells alone were stimulated with Con A, IL 1R were only marginally expressed. However, by the addition of monocytes, IL 1R were expressed on T cells in a dose-dependent manner. The maximum response was induced in the presence of 10% monocytes. The maximum IL 1R-positive T cells were approximately 30% by the detection of the flow cytofluorometry with FITC-conjugated IL 1 alpha. This enhancing activity of IL 1R expression on T cells by monocytes was inhibited by the addition of an anti-HLA-DR antibody or by the treatment of monocytes with the anti-HLA-DR antibody and complement. Furthermore T cell proliferative responses induced with IL 1 and Con A were also enhanced by the addition of HLA-DR-positive monocytes. These results suggest that IL 1R are expressed as the result of monocyte-T cell interaction in the early stage of T cell activation, and the expression of IL 1R on T cells and the responsiveness of T cells for IL 1 require the accessory function of HLA-DR-positive monocytes.     

Alpha-conotoxin ImI inhibits the alpha-bungarotoxin-resistant nicotinic response in bovine adrenal chromaffin cells

The activity of alpha-conotoxin (alpha-CTX) ImI, from the vermivorous marine snail Conus imperialis, has been studied on mammalian nicotinic receptors on bovine chromaffin cells and at the rat neuromuscular junction. Synthetic alpha-CTX ImI was a potent inhibitor of the neuronal nicotinic response in bovine adrenal chromaffin cells (IC50 = 2.5 microM, log IC50 = 0.4 +/- 0.07), showing competitive inhibition of nicotine-evoked catecholamine secretion. Alpha-CTX ImI also inhibited nicotine-evoked 45Ca2+ uptake but not 45Ca2+ uptake stimulated by 56 mM K+. In contrast, alpha-CTX ImI had no effect at the neuromuscular junction over the concentration range 1-20 microM. Bovine chromaffin cells are known to contain the alpha3beta4, alpha7, and (possibly) alpha3beta4alpha5 subtypes. However, the secretory response of bovine chromaffin cells is not inhibited by alpha-bungarotoxin, indicating that alpha7 nicotinic receptors are not involved. We propose that alpha-CTX Iml interacts selectively with the functional (alpha3beta4 or alpha3beta4alpha5) nicotinic acetylcholine receptor to inhibit the neuronal-type nicotinic response in bovine chromaffin cells.     

Investigation of the regulation of pigmentation in alpha-melanocyte-stimulating hormone responsive and unresponsive cultured B16 melanoma cells

In vitro melanocyte-stimulating hormone (MSH) stimulates melanogenesis in some, but not all, melanocytes and melanoma cells. In an attempt to explain this variation in response to alpha MSH, we examined cyclic adenosine monophosphate (cAMP) accumulation, tyrosinase activity, and melanin production in primary (1 degree) murine B16 melanoma cells and in two B16 cell lines (B16 F1 and B16 F10) that are known to respond to alpha MSH. In vivo all three B16 melanoma cell types produced pigmented tumours. In vitro alpha MSH increased tyrosinase activity and melanin content in the F1 and F10 cells but not in the B16 1 degree cells. alpha MSH, however, increased cAMP production in all three cell types, confirming that the inability of B16 1 degree cells to produce melanin in response to alpha MSH is not due to a lack of alpha MSH receptors or cAMP response to alpha MSH. Further, we present evidence for a separate pathway of melanogenesis that is independent of cAMP as calmodulin antagonists, which do not elevate cAMP, increased tyrosinase activity, and melanin production in both 1 degree and F1 cells.     

Neuronal properties of monkey adrenal medulla in vitro

Summary Chromaffin cells from the monkey adrenal medulla were maintained in vitro in the presence of nerve growth factor (NGF) and the neuronal properties of these cells were assessed. Single-cell preparations were obtained by collagenase-trypsin treatment of the minced adrenal medulla tissue. Cells assumed a glandular to epithelioid morphology after twenty-four hours of culture. Twelve percent of these cells were shown to extend neurites spontaneously after five days. NGF-stimulated neuritic outgrowth from most cells after five days of culture and these neurites remained for at least three weeks. Cells exhibited intense histofluorescence for catecholamines even after three weeks in vitro in the presence of NGF and positive staining for tyrosine hydroxylase and dopamine beta hydroxylase could be detected by immunocytochemistry. Moreover, the chromaffin cells were shown to bind tetanus toxin, which is a specific marker for neurons. Tetanus toxin labelling was not dependent upon the presence of neurites on these cells. Transmission electron microscopy indicated that cultured cells contained numerous dense-core vesicles similar to noncultured medulla cells. Many of the neurites possessed the morphological features of axons; long varicose processes resembling noradrenergic fibers were identified by catecholamine histofluorescence and tyrosine hydroxylase immunocytochemistry. Microtubular arrays, in an axonal-like organization pattern, were seen ultrastructurally along with the presence of many dense-core vesicles. These data support the potential of adult primate chromaffin cells as a source of sympathetic neuronal tissue for neural transplantation.Supported in part by a Grant from the Alzheimer's Disease and Related Disorders Association, Inc.     

Nonadrenergic modulation by clonidine of the cosecretion of catecholamines and enkephalins in adrenal chromaffin cells

Cultured bovine chromaffin cells cosecrete catecholamines and enkephalins following cholinergic nicotinic stimulation. Initial reports on the inhibitory effect of clonidine on catecholamine secretion raised the possibility of a modulation of chromaffin cell function through a presynaptic adrenergic mechanism. The purpose of this work was to investigate the pharmacological characteristics of this inhibitory effect of clonidine on the cosecretion of catecholamines and enkephalins in 4-day-old cultured chromaffin cells. We observed that clonidine completely inhibits nicotine-stimulated secretion of both leucine-enkephalin and catecholamines with an IC50 of 34 microM. Treatment of chromaffin cells for 3 days with 100 nM reserpine leads to a 67% increase in nicotine-stimulated secretion of leucine-enkephalin without any effect on the IC50 of clonidine. In reserpine-treated chromaffin cells, norepinephrine (100 microM) inhibits only by 27% nicotine-stimulated secretion of leucine-enkephalin with an IC50 of 50 microM. Neither the alpha 2-adrenergic antagonist yohimbine nor the alpha 1-adrenergic antagonist prazosin could fully reverse the inhibitory effect of clonidine on leucine-enkephalin secretion at 10 nM. These results tend to rule out the role of alpha-adrenergic receptors in the mediation of clonidine inhibition of cosecretion in chromaffin cells.     

Precursor frequency of human T4 cells responding to stimulation through the CD3 molecular complex: role of various cytokines in promoting growth and IL2 production

The frequency of human T4 cells induced to grow and produce IL2 in response to the anti-CD3 mAb, 64.1, was examined. T4 cells were cultured at limiting dilution and stimulated with either soluble or immobilized 64.1 in the presence of various cytokines and/or irradiated B lymphoblastoid cells as accessory cells (AC). The frequency of responding cells was assessed by examining wells microscopically for visible growth and supernatants for IL2. Immobilized, but not soluble, 64.1 was able to induce T4 cells to grow in the complete absence of AC, but only when exogenous cytokines were present. IL2 was most effective at supporting T4 cell growth in this system, with a mean of 26.0 +/- 3.8% of immobilized 64.1-activated T4 cells generating a colony in cultures supplemented with IL2. IL4 could also support the growth of immobilized 64.1-activated T4 cells, but the frequency of responding cells was much lower (3.7 +/- 0.9%). The combination of IL2 and IL4 was not more effective than IL2 alone. TNF alpha, IL1 beta, and IL6 were unable to support T4 cell growth alone, but each increased the frequency of T4 cells responding in the presence of IL2. AC could support the growth of a small number of 64.1-stimulated T4 cells in the absence of exogenous IL2 and enhanced the frequency of T4 cells responding to immobilized 64.1 in the presence of IL2. The percentage of immobilized 64.1-stimulated T4 cells producing IL2 was also examined. Immobilized 64.1 stimulated less than 1.4 in 1000 T4 cells to produce IL2 in the absence of AC and neither IL4 nor TNF alpha enhanced this response. Fixed AC and IL1 beta, on the other hand, caused a small increase in the frequency of immobilized 64.1-activated T4 cells that secreted IL2. The frequency of T4 cells stimulated to produce IL2 by immobilized 64.1 was greatly enhanced by the addition of AC. The data indicate that in the absence of AC, a stimulatory matrix of immobilized 64.1 is sufficient for some T4 cells to be activated to become IL2 or IL4 responsive and for a smaller percentage to secrete IL2. Additional T4 cells require IL1 beta, TNF alpha, IL6, or AC to become IL2 responsive, whereas only IL1 beta and AC can promote IL2 production. In the presence of AC, the amount of cytokine produced endogenously appears to be sufficient to sustain the growth of some T4 cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Mouse semaphorin H induces PC12 cell neurite outgrowth activating Ras-mitogen-activated protein kinase signaling pathway via Ca(2+) influx.

We recently showed that mouse semaphorin H (MSH), a secreted semaphorin molecule, acts as a chemorepulsive factor on sensory neurites. In this study, we found for the first time that MSH induces neurite outgrowth in PC12 cells in a dose-dependent manner. Comparison of Ras-mitogen-activated protein kinase (MAPK) signaling pathways between MSH and nerve growth factor (NGF) revealed that these pathways are crucial for MSH action as well as NGF. K-252a, an inhibitor of tyrosine autophosphorylation of tyrosine kinase receptors (Trks), did not inhibit the action of MSH, suggesting that MSH action occurs via a different receptor than NGF. L- and N-types of voltage-dependent Ca(2+) channel blockers, diltiazem and omega-conotoxin, inhibited MSH-induced neurite outgrowth and MAPK phosphorylation in a Ca(2+)-dependent manner. A transient elevation in intracellular Ca(2+) level was observed upon MSH stimulation. These findings suggest that extracellular Ca(2+) influx, followed by activation of the Ras-MAPK signaling pathway, is required for MSH induced PC12 cell neurite outgrowth.     

Chronic exposure to an activator of protein kinase C mimics early effects of NGF in chromaffin cells

Adrenal chromaffin cells respond to nerve growth factor (NGF) in vitro by expressing neuronal characteristics and, over a period of 2 to 4 weeks, transdifferentiating into postmitotic sympathetic neurons. Phorbol myristate acetate (PMA) is a potent activator of protein kinase C (PKC); chronic exposure to PMA mimics the initial actions of NGF by promoting the outgrowth of neurites and increasing the incorporation of [3H] thymidine in primary cultures of adrenal chromaffin cells from young rats. PMA and NGF affect the same populations of cells and even individual neurites. These effects are specific for active phorbol ester and do not result from the release of NGF or FGF in the cultures. As in the case of NGF, the effects are inhibited by glucocorticoids. The PKC inhibitor staurosporine inhibits the effects of PMA, as well as those of NGF, in a dose-dependent manner. These results suggest that a modulation in activity of PKC is important in the neuritogenic and proliferative effects of NGF, at least for an initial period of approximately 1 week.     

Immunoblotting technique to study release of melanophore-stimulating hormone from individual melanotrope cells of the intermediate lobe of Xenopus laevis.

The melanotrope cells in the pars intermedia in the pituitary of Xenopus laevis synthesize and release the melanophore-stimulating hormone (alpha MSH), a small peptide that causes skin darkening during the process of background adaptation. Evidence has been found for a heterogeneity in biosynthetic activity of the melanotrope cells. In the present study two questions were addressed: (1) does the melanotrope cell population also show heterogeneous alpha MSH-release, and (2) can this heterogeneity be changed by extracellular messengers? Since dopamine is known to inhibit alpha MSH-release, this messenger is used to study the regulation of the heterogeneity. To quantify alpha MSH-release from individual cells, a cell blotting procedure has been developed for the binding and relative quantification of the small alpha MSH peptide. The immunoblotting procedure involves binding of the cells to a carrier slide and binding of released alpha MSH to a nitrocellulose filter. After immunostaining, the amount of alpha MSH per cell was quantitated by image analysis. Untreated melanotrope cells reveal a distinct variability in alpha MSH-release, some cells showing low secretory activity, whereas others are strongly secreting, indicating heterogeneity of alpha MSH-release. Dopamine treatment strongly inhibits alpha MSH-release from individual cells, resulting in a clearly less pronounced melanotrope cell heterogeneity. The effect of dopamine appears to be dose-dependent as a low dopamine concentration has only a moderate effect on the alpha MSH-release. It is proposed that dopamine is a physiological regulator of the degree of melanotrope cell heterogeneity in alpha MSH-release.     

Developmental changes in the responses of rat chromaffin cells to neuronotrophic and neurite-promoting factors

This study describes the survival and neurite outgrowth behaviors of cultured adrenal medullary (chromaffin) cells obtained from postnatal rats 1 day (D1) to 100 days (D100) old in response to nerve growth factor (NGF), chick eye ciliary neuronotrophic factor (CNTF), and laminin. In the absence of trophic factors the 4-day survival of cultured chromaffin cells (relative to the number of cells attached at 2 hr) increased from one-third of the cells at D1 to 40% at D8 and 90-100% at D16 and older stages. At saturating concentrations NGF increased cell survival at D8 by 90%, but failed to support all chromaffin cells present at 2 hr. In contrast, CNTF supported the survival of all cells at D8. At D1 NGF and CNTF had only a very small effect on survival during the 4-day culture period, although both factors clearly enhanced the numbers of surviving cells after 8 days. Either NGF or CNTF also elicited neurite outgrowth from rat chromaffin cells, which amounted to approximately 15-20% at D1 and D8 and subsequently decreased to about 5-8% at D30 and virtually zero at D100. At this last age both factors applied together clearly elicited neurites. Such a potentiating effect of NGF and CNTF was also seen at earlier postnatal ages. Laminin did not affect neurite growth at D30 in the absence of trophic factors, as already described for D8 rat chromaffin cells. In the presence of NGF, however, it increased neurite length and branching during a 4-day culture period and even enhanced neurite recruitment at later culture times. These data suggest that rat chromaffin cells undergo age-related changes in their responses to NGF and CNTF and that laminin modulates their neurite outgrowth behaviors in the presence of trophic factors.     

Proliferative activity of cells of the intermediate lobe of the rat pituitary during the postnatal period.

Cellular proliferation was studied in the intermediate lobe (IL) of the pituitary gland of developing rats by labelling cells at the S-phase of the cell cycle with bromodeoxyuridine (BrdU). The number of BrdU-labelled cells in the IL decreased from birth until the 14th postnatal day and was low from that day until the end of the first month after birth. Throughout the postnatal period a large proportion of BrdU-labelled cells was found in the marginal layer (ML) of the IL, suggesting for the ML a role as a germinative layer of the IL during postnatal growth. Double immunostaining with anti-BrdU and anti-MSH showed that MSH cells actively proliferate as from the day of birth. Cells doubly immunostained with anti-BrdU and anti-S100 protein were first seen on the 14th postnatal day. From then onwards, most proliferating cells were labelled with either anti MSH or anti S-100 protein. This, together with the high proportion of proliferating cells found in the ML marks a clear difference with the pattern of cellular proliferation previously reported during a similar period in the anterior lobe of the rat pituitary.