A Correlation Between Pituitary and Integumentary Structure in the Nine-Spined Stickleback,Pungitius pungitius L.

Benjamin, M. 1980. A correlation between pituitary and integumentary structure in the nine-spined stickleback, Pungitius pungitius L. (Department of Anatomy, University College, Cardiff, Wales, U.K.) — Acta zool. (Stockh.) 61(2): 105–109. Naturally occurring, large pituitary cysts, that almost excluded prolactin cells from the pituitary of Pungitius pungitius L., offered a unique opportunity to study a target organ for prolactin (the integument) in fish that were “partially hypophysectomised” without any accompanying surgical trauma. In fish with large pituitary cysts, the epidermis from the lateral body wall was thinner and its mucocytes less abundant, than in fish with normal pituitaries and thus many prolactin cells. In support of the hypothesis that prolactin produced the observed integumentary changes, was the similarity of other pituitary cells in animals with and without cysts. Evidently, prolactin can influence the integument of Pungitius, even though it does not seem essential for freshwater survival.     

Factors Associated with the Seasonal Variation in the Incidence of Pituitary Cysts in Nine-Spined Sticklebacks,Pungitius pungitius L.

Cysts among the prolactin cells in the pituitary gland of the nine-spined stickleback, Pungitius pungitius L., are most common during and shortly after periods of high mortality that mark the end of the reproductive season. Fish are oldest at this time of year. Nevertheless, cysts may occur in breeding as well as spent fish, and their presence does not relate to changes in oocyte development. They can be induced by starving animals in February, but not in September—October. Starved fish always have small prolactin cells and nuclei. It is suggested that cysts form in older fish in response to stress, be this natural or induced. No correlation was noticed between the condition factor of fish caught in the wild, and the incidence of pituitary cysts.     

The Response of Prolactin,ACTH, and Growth Hormone Cells in the Pituitary Gland of the Three-Spined Stickleback,: Gasterosteus aculeatus L. form leiurus,to Increased Environmental Salinities

Benjamin, M. 1980. The response of prolactin, ACTH, and growth hormone cells in the pituitary gland of the three-spined stickleback, Gasterosteus aculeatus L. form leiurus, to increased environmental salinities. (Department of Anatomy, University College, Cardiff, Wales, U.K.) — Acta zool. (Stockh.) 61(1): 1–7. The time-sequence of response of the prolactin, ACTH and growth hormone cells in the pituitary gland of the leiurus form of the three-spined stickleback, Gasterosteus aculeatus L., to a transfer from freshwater to seawater, was studied by light microscopy. The appearance of the pituitary was compared with that of animals caught in brackish or sea water. The prolactin cells respond only slowly to seawater by cytological changes interpreted as signs of decreased secretory activity. It is thus suggested that prolactin is unlikely to be important for osmoregulation in this stickleback. The growth hormone cells are more active in all seawater-adapted animals, while the ACTH cells are less active—although only in laboratory experiments. The differing responses of the pituitaries of the leiurus and trachurus forms of G. aculeatus and Pungitius pungitius to high salinities are compared. Even in species whose pituitaries are virtually identical, the response to high salinites may differ widely.     

Seasonal changes in the prolactin cell of the pituitary gland of the freshwater stickleback,Gasterosteus aculeatus,form leiurus

Summary The relative volume of the RPD region of the pituitary gland of Gasterosteus aculeatus form leiurus was greater in animals collected in the spring than in winter. A morphometric analysis of the prolactin cells from spring animals showed only slight changes in cell ultrastructure compared with winter animals. However, in spring the prolactin cells apparently formed and released more secretory granules. Three distinct sites for the release of secretory granules are described. A preliminary study of the response of prolactin cells from spring animals to 70% sea water did not reveal any large scale changes in cell ultrastructure. The significance of this finding is discussed. It is concluded that although the freshwater stickleback cannot be regarded as physiologically hypophysectomised: with regard to prolactin secretion in the winter, it still shows a seasonal change in prolactin cell ultrastructure.This work formed part of a thesis submitted for the degree of Doctor of Philosophy in 1973 and for which the author was in receipt of an S.R.C. studentship. My thanks are due to Dr. M.P. Ireland for his support and supervision throughout the course of the work.     

Induction from posterior hypothalamus is essential for the development of the pituitary proopiomelacortin (POMC) cells of the toad (Bufo japonicus)

The role of the posterior hypothalamus in the development of the epithelial hypophysis was studied in Bufo embryos. In animals from which the central part of the neural plate (NP) had been surgically removed at the open neurula stage, the infundibulum did not develop, and the epithelial hypophysis was formed away from the normal site without morphological connection with the brain. Immunoreactive MSH cells and ACTH cells, i.e, the pituitary POMC cells, were not detected in any of the surgically treated animals while other types of secretory cells (PRL, GH, TSH and GTH cells) were invariably present. In view of the fact that POMC cells originate in the anterior neural ridge, and not in the neural plate, the embryonic brain seems to exert an inductive influence upon the primordial pituitary POMC cells. Since these cells differentiate in a tail graft, isolated from the brain at a later stage (tail-bud stage), the inductive stimuli must be conveyed from/via the posterior hypothalamus to the pituitary anlage between the open neurula and the tail-bud stages.Abbreviations ACTH Adrenocorticotropic hormone - ANR anterior neural ridge - GH growth hormone - GTH gonadotropic hormone - MSH metanocyte stimulating hormone - NP central part of anterior neural plate - POMC proopiomelanocortin - PRL prolactin - TSH thyroid-stimulating hormone     

The identification of the thyrotropic cells in the adenohypophysis of the cichlid fish Cichlasoma biocellatum and the role of these cells and of the thyroid in osmoregulation

Summary In order to identify the thyrotropic cells in the pituitary gland of Cichlasoma biocellatum, adult animals were treated with thyroxine. Periodic acid Schiff (PAS)- and aldehyde fuchsin (AF)-positive, and Alcian blue (AB)-negative basophils in the meso-adenohypophysis as well as the thyroid were strongly inactivated by such treatment. Since other cell types in the adenohypophysis were not affected, it is concluded that the PAS-positive and AB-negative basophils in the meso-adenohypophysis are the thyrotrops. In normal animals the thyrotrops and the thyroid are very active. Propylthiouracil did not cause a further activation of TSH cells. Keeping the animals in 25% sea-water caused a strong inactivation of the prolactin cells, the thyrotrops and the thyroid. In deionized water the prolactin cells were stimulated, but the thyroid was less active than in controls. Injections of ovine prolactin did not enhance the activity of the thyroid in salt water animals. It is suggested that in Cichlasoma biocellatum prolactin does not have a direct stimulatory effect on the thyroid.Thanks are due to Prof. Dr. P. G. W. J. van Oordt for his continual interest and valuable suggestions, and to Dr. L. Boomgaart for correcting the english. We are indebted also to Messrs. H. van Kooten and E. van der Vlist for making the photographs. The National Institutes of Health, Bethesda, Maryland (U.S.A.) kindly presented the ovine prolactin.     

Prolactin Cells: Study of the Pituitary Gland of the Roach (Leuciscus rutilus) by Immuno-histochemical Methods

Fluorescein-labelled antibodies against ovine prolactin have been used to localize the prolactin-producing cells in the pituitary gland of the roach, Leuciscus rutilus. Two methods of protein tracing have been used: the direct and the indirect. In the direct method gammaglobulin fractions of rabbit-antisera were conjugated with fluorescein-isothiocyanate. Frozen sections of the pituitary gland were treated with conjugate. Cells with a content of prolactin gave off green fluorescence. Conjugate made from normal rabbit-serum failed to give this result. Blocking-experiments were also used to control the conjugate fluorescence. In the indirect method sheep-anti-rabbit-gammaglobulin was labelled with fluorescein. First the sections of the hypophysis were treated with antiserum from rabbits. After careful rinsing the sections were exposed to the dyemarked sheep-anti-rabbit-gammaglobulin. For orientation in the pituitary gland histological staining was carried out in parallel to that by fluorescence. The investigation has shown that the erythrosinophilic cells in the rostral pars distalis contained prolactin. Since no other cells in the gland were fluorescent, it can be concluded that the eta-cells are the prolactin cells.     

A diurnal rhythm of pituitary prolactin activity with diurnal effects of mammalian and teleostean prolactin on total body lipid deposition and liver lipid metabolism in teleost fishes*

Previous investigations have shown that mammalian prolactin has a pronounced effect on lipid deposition in teleost fishes (e.g. Meier et al., 1971; de Vlaming & Sage, 1972). Prolactin can be either lipogenic or lipolytic depending on when during the day it is injected. Studies were initiated to determine whether the diurnal effects of prolactin on lipid metabolism in Fundulus similis vary with season or photoperiod acclimation. Data presented here indicate that the diurnal rhythm of response to prolactin persists in the pre-spawning and post-spawning seasons if F. similis is maintained on a long photoperiod. When animals are acclimated to a short photoperiod, treatment with mammalian prolactin either early or late in the photoperiod causes lipid depletion. Homogenates of the portion of the pituitary containing only prolactin cells cause lipid depletion in F. similis when injected early during a long photoperiod, but stimulate lipogenesis if injected late in the photoperiod; these results imply that fish prolactin may be involved in lipid metabolism. Furthermore, prolactin activity in the pituitary of F. similis varies diurnally. In vitro studies of lipid metabolism in Notemigonous crysoleucas and Ictalurus natalis suggest that the liver may be one of the target organs for prolactin.     

The morphology of the mucous gland and its responses to prolactin in the skin of the red-spotted newt

The mucous gland of the red-spotted newt, Notophthalamus viridescens viridescens, Rafinesque was examined by histochemical and ultrastructural techniques and its cytological responses to various hormonal conditions were studied. Its secretory epithelial cells produce and release in merocrine fashion a neutral, unsulphated mucosubstance. The secretory epithelium is bounded peripherally by a thin, but apparent non-functional, myo-epithelium. The duct of this mucous gland consists of a single keratinized tubular cell that extends from the neck region of the gland to the surface of the epidermis. Mucous secretion is absent or greatly reduced on the skins of newts maintained under laboratory conditions for a few weeks but reappears after injection of ovine prolactin. Mucous glands in laboratory conditioned animals show a 4-fold increase in volume brought about by the engorgement of their epithelial cells with secretory granules. Ovine prolactin reduces the volume of the glands to unconditioned levels with a corresponding reduction in granular content, suggesting that prolactin functions in the release of the granules. This view is reinforced by the findings that autotransplantation of the pituitary gland prevents the conditioning effect and that glandular volume increases in auto-transplanted animals given ergocornine. Granular accumulation begins also in hypophysectomized newts but ceases after a week, indicating the need for some hypophyseal factor in the synthesis as well as the release of the granules. Ovine prolactin restores mucous glands of hypophysectomized newts to the unconditioned state. Contrary to earlier findings, ovine prolactin induces a reduction in the volume of the mucous gland in thyroidectomized newts.     

The origin of pituitary cysts in the rostral pars distalis of the nine-spined stickleback,Pungitius pungitius L.

Summary Pituitary cysts in the nine-spined stickleback, Pungitius pungitius L., develop next to blood vessels passing through the prolactin zone of the rostral pars distalis to the connective tissue capsule at its periphery. Cysts were most frequent when pituitaries were large compared with body lengths. However, the incidence of cysts could not be closely related to body length alone. As the rostral pars distalis is more highly vascularised in fish with large pituitaries, and as there was no evidence of accumulating secretion around these blood vessels, it is suggested that cysts develop when vascular demands (or supplies) become excessive. Associated with the greater vascularity of the rostral pars distalis in large pituitaries was a remarkable development of non-granulated cells. Indeed cysts may originate as enlarged intercellular spaces between such cells, as the latter often surround blood vessels. The non-granulated cells are also important in enlarging cyst cavities (by phagocytosing prolactin-cell debris) and perhaps for maintaining their structural integrity. It is suggested that the macrophages within cyst cavities are derived from the non-granulated cells.     

Immunohistochemically detected ontogeny of prolactin and growth hormone cells in the African catfish Clarias gariepinus

The chronological appearance of selected endocrine cells in the pituitary of African catfish Clarias gariepinus (Burchell, 1822) was studied morphologically, histologically and immunohistochemically by using antisera raised against catfish growth hormone (cgGH) and recombinant tilapia prolactin I (tPRL). cgGH- and tPRL-like immunoreactive cells were visible from day 1 post fertilisation (hatching) throughout the juvenile and the adult stage. From 1 to 90 days after hatching, the larval pituitary is oval in shape with a distinctly shaped rostral pars distalis, proximal pars distalis and pars intermedia. From day 120 onwards allometric growth of the rostral and proximal pars distalis extended the prolactin and growth hormone cells anteriorily and posteriorily, respectively. Size and activity of the prolactin and growth hormone cells, measured by the ratio of cell surface to nuclear surface remained constant until day 40 and showed a growth spurt thereafter. Growth hormone content, measured with a catfish-specific radio-immunoassay from hatching until 60 h post hatching, increased exponentially between 30 and 60 h.     

Immunocytochemistry of somatotrophs,gonadotrophs, prolactin and adrenocorticotropin cells in larval sea bream (Sparus auratus) pituitaries

Summary The chronological appearance of endocrine cells in the pituitary of sea-bream (Sparus auratus) larvae was studied using antisera against salmon prolactin, trout growth hormone, salmon gonadotropin and N-terminal human adrenocorticotropin. The larval pituitary (1–12 days after hatching) was oval in shape and was composed of a dense mass of cells with few neurohypophysial fibres. By 60 days after hatching it began to resemble the adult and was divisible into a distinct rostral pars distalis containing prolactin and adrenocorticotropin cells; a proximal pars distalis containing somatotrophs and gonadotrophs and a pars intermedia. Cells immunoreactive with antisera against growth hormone were observed immediately after hatching (2 days post-fertilization). Weakly staining prolactin cells were observed 2 days later in the region corresponding to the rostral pars distalis. Cells immunoreactive with anti-gonadotropin and anti-adrenocorticotropin sera were observed in the pituitary 6 and 8 days after hatching, respectively. All the cell-types studied were immunoreactive from the time they were first identified until the final samples 90 days after hatching.     

Gonadotroph-lactotroph associations and expression of prolactin receptors in the equine pituitary gland throughout the seasonal reproductive cycle

An interaction between gonadotroph and lactotroph cells of the pituitary gland has long been recognized in several species. The current study was conducted to investigate whether an association between gonadotrophs and lactotrophs occurs in mares and whether prolactin receptors are expressed within the pituitary gland of this species. The effects of both reproductive state and season on these variables were examined in pituitary glands obtained from sexually active mares in July (breeding season), sexually active mares in November (non-breeding season) and anoestrous mares in November. Pituitaries were dissected out immediately after death and immunofluorescent staining was carried out on 6 micrometer sections using specific antibodies to the LHbeta subunit, FSHbeta subunit, prolactin and prolactin receptor. Gonadotrophs were observed in both the pars distalis and pars tuberalis; although they appeared mostly as isolated cells, small groups of gonadotrophs were also identified in the pars distalis. In contrast, lactotrophs were observed only as clusters of cells exclusively in the pars distalis of sexually active and anoestrous mares in November and in most of the sexually active mares in July. A specific gonadotroph-lactotroph association was identified only between large isolated gonadotrophs and lactotroph clusters. Double immunofluorescent staining for FSHbeta and prolactin revealed a similar gonadotroph-lactotroph association to the one detected for LH gonadotrophs. No statistical difference in the gonadotroph:lactotroph ratio was observed as a result of changes in reproductive status or season. However, a tendency for a simultaneous decrease in the number of gonadotrophs and an increase in the number of lactotrophs was detected in anoestrous animals. Prolactin receptor immunoreactivity was found in the pars distalis, but not in the pars tuberalis, of sexually active (July and November) and anoestrous animals for both long and short forms of the receptor. No prolactin receptor co-localization for either form of the receptor was observed in LH or FSH gonadotrophs in either of the reproductive states examined during both summer and winter seasons. Furthermore, no significant difference was apparent in the proportion of cells expressing prolactin receptors between mares of different reproductive state or season. The specific anatomical association between gonadotroph and lactotroph cells and the expression of prolactin receptors in the equine pituitary gland indicate a potential role of prolactin in the regulation of gonadotrophin secretion. However, the absence of evidence for co-localization of prolactin receptors in LH or FSH cells does not support the hypothesis of a direct effect of prolactin on the gonadotroph as reported in a short day breeder. The results raise the possibility that, in horses, an intermediate regulatory cell may mediate the action of prolactin on gonadotroph function.     

LH, FSH, PRL and ACTH cells in pituitary glands of cows with ovarian cysts

We investigated morphometrically and densitometrically LH, FSH, PRL, and ACTH cells in pituitary glands in cows with follicular cysts and normal animals. Three groups were considered: cows in diestrus, cows in periestrus and cows with follicular cysts. The periestrous group was obtained by merging pro- and metaestrous groups, since the two did not differ when evaluated separately. The attribution to groups was confirmed by plasma progesterone measurements and by postmortem examination of the ovaries. After immunocytochemical labeling the pituitary cells were counted, and their area and total immunoreactivity were measured. The results suggest hypofunction of the LH cells (P < 0.05) and hyperfunction of the ACTH cells (P < 0.05) from the cows of the follicular cyst group. The FSH and PRL cells were similar in the three groups. These changes are consistent with the reduced LH release reported by most authors in cows with follicular cysts and should be relevant to the pathogenesis of the bovine follicular cysts. The subnormal activity of LH cells might be secondary to the activation of the ACTH cells.     

Fine-structural heterogeneity and morphologic changes in rat pituitary prolactin cells after estrogen and testosterone treatment

Summary This study was conducted to determine the functional and/or developmental relationships among three heterogeneous types of prolactin cells (I, II and III) in rats. Rats were injected subcutaneously daily with estradiol or testosterone propionate on days 10–20 after birth. Estradiol increased the proportion of cell types II and III, increased serum PRL levels 12-fold in males and 15-fold in females, and increased pituitary levels of prolactin 12-fold in males and 5-fold in females. Testosterone mainly increased the proportion of the Type-II cells, decreased serum levels of prolactin in males only, and did not change pituitary levels of prolactin. In a second experiment, treatment of rats with nafoxidine for five days after E₂ treatment (days 10–20 after birth) increased the proportion of Type-I cells and decreased the proportion of Type-III cells and decreased serum and pituitary levels of prolactin by 50% in females and by 15 and 45% in males. In a third experiment utilizing adult male rats, estradiol and testosterone were found to modulate the relative ratios of the different types of PRL cells as they did in immature animals. The data taken as a whole suggest the possibility of an estrogen-stimulated conversion of one cell type to another, which may be a reflection of prolactin secretory activity.This work was supported by a Scientific Research Grant from the Ministry of Education, Science and Culture of Japan (No. 57770038)     

Influence of Medium Concentration on Prolactin and Growth Hormone Cells During Short-Term Incubation of Pituitary Glands from Tilapia mossambica

Pituitaries removed from Tilapia mossambica adapted either to sea water or fresh water were incubated for 3 or 6 hours in isosmotic or hyposmotic medium. Activation of prolactin cells from pituitaries incubated in hyposmotic medium was indicated by frequent exocytosis and by proliferation of cellular organelles. These pituitaries also showed a reduction in prolactin content and an increase in the amount of bioassayable prolactin in the medium. Incorporation of tritiated leucine into prolactin was least in prolactin cells from seawater Tilapia incubated in isosmotic medium and greatest in those of freshwater Tilapia incubated in hyposmotic medium. These observations indicate that in Tilapia, both synthesis and secretion of prolactin may be stimulated directly by dilution of the medium bathing the pituitary. On the other hand, there were no ultrastructural changes in the presumptive growth hormone cells incubated for 3 or 6 hours in the hyposmotic medium. Hence, these cells do not appear to play a major osmoregulatory role.     

Effect of prolactin and estradiol on rat striatal dopamine receptors

Chronic estrogen treatment has been found to increase the level of rat striatal dopamine receptors. Since it is well known that estrogen treatment increases circulating prolactin levels, we have investigated the possibility that the stimulatory effect of estrogens on dopamine receptors is exerted via prolactin. Ovariectomized female or intact male rats were implanted with three adenohypophyses under the kidney capsule or treated with 17 β-estradiol (10 μg, twice daily) for 2 weeks. In animals of both sexes, the pituitary-implanted and estradiol-treated rats showed higher levels of [³H]spiperone binding to striatal dopamine receptors. This effect of estradiol or pituitary implants on dopamine receptors was further investigated in ovariectomized rats. The pituitary-implanted and estradiol-treated rats had elevated plasma prolactin levels and an increased density of striatal dopamine receptors without alteration of their affinity. The role of the pituitary in the effect of estradiol was next investigated using hypophysectomized female rats treated with 17 β-estradiol (10 μg, twice daily), o-prolactin (500 μg, twice daily) or bearing three anterior pituitary implants. The implants as well as the treatment with estradiol or prolactin increased the level of striatal dopamine receptors in hypophysectomized rats while, as expected, the estradiol-treated animals did not have elevated plasma prolactin levels. The present data indicate that high prolactin levels lead, as observed with chronic estradiol treatment, to an increased density of striatal dopamine receptors. However, the effect of estradiol may not be explained exclusively by increased prolactin levels since a similar stimulatory effect is observed in hypophysectomized animals.     

Prolactin regulation in the coho salmon,Oncorhynchus kisutch

Summary Parr and smolt sea water acclimated coho salmon,Oncorhynchus kisutch were subjected to gradual and direct transfers to fresh water. Plasma osmotic pressure, Na⁺, K⁺, Ca⁺⁺ and Mg⁺⁺ were similar in freshwater (FW) fish and seawater (SW) transferred controls for the 24 h following transfer. In spite of the similarity in osmotic pressure and ion levels, plasma cortisol concentrations were significantly increased immediately following salinity change while both pituitary and plasma prolactin decreased indicating enhanced secretion by the pituitary and clearance from the blood. In vitro experiments showed greater incorporation of tritiated leucine into prolactin (PRL) cells immediately after transfer to FW while prolactin injections into intact fish lowered activity in rostral pars distalis (RPD) cells as measured by the same technique, providing evidence of hormonal feedback. These experiments show that the increased synthesis and release of PRL that occurs in coho following movement into FW is not obviously correlated with plasma osmotic pressure, Na⁺ or Ca⁺⁺ concentrations as has been observed in other species of teleosts.Abbreviations FW freshwater - SW seawater - PRL prolactin - RPD rostral pars distalis     

High-level expression of biologically active human prolactin from recombinant baculovirus in insect cells

We examined the feasibility of high-level production of recombinant human prolactin, a multifunctional protein hormone, in insect cells using a baculovirus expression system. The human prolactin cDNA with and without the secretory signal sequence was cloned into pFastBac1 baculovirus vector under the control of polyhedrin promoter. Prolactin was produced upon infection of either Sf9 or High-Five cells with the recombinant baculovirus containing the human prolactin cDNA. The production of recombinant prolactin varied from 20 to 40 mg/L of monolayer culture, depending on the cell types. The prolactin polypeptide with its own secretory signal was secreted into the medium. N-terminal amino acid sequence analysis of the recombinant polypeptide purified from the culture medium indicated that the protein was processed similar to human pituitary prolactin. Carbohydrate analysis of the purified protein indicated that a fraction of the recombinant prolactin made in insect cells appeared to be glycosylated. Also, both secreted and nonsecreted forms of the recombinant prolactin in insect cells were biologically equivalent to the native human prolactin (pituitary derived) in the Nb2 lymphoma cell proliferation assay.