Histomorphological and quantitative immunohistochemical changes in the rat pancreas during aging.

Although the endocrine pancreas is the purpose of several deep investigations, morphological data referred to the effect of aging on the gland are not homogeneous. The purpose of the current work was to analyze the changes occurring in the pancreas of aged rats, with especial reference to the islet cell populations. Six young (Y), old (O) and senescent (S) male Sprague-Dawley rats were used. The pancreas tails were processed for light microscopy and studied by means of routine stains as well as by immunohistochemical identification of insulin-, glucagon-, somatostatin-, and pancreatic polypeptide- secreting cells (Dako Envision System, DAB as chromogen). A progressive pancreatic histoarchitecture distortion was found among the aged animals. Even when the alterations were not uniformly observed, they appeared more evident and severe in the S group. The S rats showed significantly increased volume density and cell density of the B cell population, as well as larger number of islet profiles, when compared to O rats. A significant progressive increment of adipose tissue was also evident in aged animals. No abnormal changes were detected in the non-B cell populations of the different groups. The quantitative changes found in aged animals suggest a possible compensatory reaction of the B cell population in an attempt to curb the influence of diabetogenic factors mounting with advanced age.

Histomorphological and quantitative immunohistochemical changes in the rat pancreas during aging

Although the endocrine pancreas is the purpose of several deep investigations, morphological data referred to the effect of aging on the gland are not homogeneous. The purpose of the current work was to analyze the changes occurring in the pancreas of aged rats, with especial reference to the islet cell populations. Six young (Y), old (O) and senescent (S) male Sprague-Dawley rats were used. The pancreas tails were processed for light microscopy and studied by means of routine stains as well as by immunohistochemical identification of insulin-, glucagon-, somatostatin-, and pancreatic polypeptide- secreting cells (Dako Envision System, DAB as chromogen). A progressive pancreatic histoarchitecture distortion was found among the aged animals. Even when the alterations were not uniformly observed, they appeared more evident and severe in the S group. The S rats showed significantly increased volume density and cell density of the B cell population, as well as larger number of islet profiles, when compared to O rats. A significant progressive increment of adipose tissue was also evident in aged animals. No abnormal changes were detected in the non.B cell populations of the different groups. (AU)

Histomorphological and quantitative immunohistochemical changes in the rat pancreas during aging

Although the endocrine pancreas is the purpose of several deep investigations, morphological data referred to the effect of aging on the gland are not homogeneous. The purpose of the current work was to analyze the changes occurring in the pancreas of aged rats, with especial reference to the islet cell populations. Six young (Y), old (O) and senescent (S) male Sprague-Dawley rats were used. The pancreas tails were processed for light microscopy and studied by means of routine stains as well as by immunohistochemical identification of insulin-, glucagon-, somatostatin-, and pancreatic polypeptide- secreting cells (Dako Envision System, DAB as chromogen). A progressive pancreatic histoarchitecture distortion was found among the aged animals. Even when the alterations were not uniformly observed, they appeared more evident and severe in the S group. The S rats showed significantly increased volume density and cell density of the B cell population, as well as larger number of islet profiles, when compared to O rats. A significant progressive increment of adipose tissue was also evident in aged animals. No abnormal changes were detected in the non.B cell populations of the different groups.

Histomorphological and quantitative immunohistochemical changes in the rat pancreas during aging.

Although the endocrine pancreas is the purpose of several deep investigations, morphological data referred to the effect of aging on the gland are not homogeneous. The purpose of the current work was to analyze the changes occurring in the pancreas of aged rats, with especial reference to the islet cell populations. Six young (Y), old (O) and senescent (S) male Sprague-Dawley rats were used. The pancreas tails were processed for light microscopy and studied by means of routine stains as well as by immunohistochemical identification of insulin-, glucagon-, somatostatin-, and pancreatic polypeptide- secreting cells (Dako Envision System, DAB as chromogen). A progressive pancreatic histoarchitecture distortion was found among the aged animals. Even when the alterations were not uniformly observed, they appeared more evident and severe in the S group. The S rats showed significantly increased volume density and cell density of the B cell population, as well as larger number of islet profiles, when compared to O rats. A significant progressive increment of adipose tissue was also evident in aged animals. No abnormal changes were detected in the non-B cell populations of the different groups. The quantitative changes found in aged animals suggest a possible compensatory reaction of the B cell population in an attempt to curb the influence of diabetogenic factors mounting with advanced age.

Glucocorticoid-induced apoptosis in lymphoid organs is associated with a delayed increase in circulating deoxyribonucleic acid.

Pathological processes like cancer, chronic inflammation and autoimmune phenomena, all of which involve massive cell death, are associated with significant increases in circulating DNA. In order to clarify whether massive apoptosis occurring under physiological circumstances also causes DNA release into the circulation, we correlated the time-course of dexamethasone-induced intra thymic cell apoptosis with plasma DNA dynamics in rats. Animals were given 10 mg/l dexamethasone in their drinking water for up to 7 days. Sequential plasma samples were obtained during the treatment and DNA was quantitated by a micro fluorometric assay. Thymus and spleen weight as well as apoptotic cell levels were assessed at different times. Seven days of glucocorticoid treatment reduced thymic and spleen mass by 82 and 31%, respectively. Intra thymic apoptosis was maximal 24 h after the beginning of glucocorticoid treatment, declining markedly by 48 h. Very little apoptosis was observed in the spleen. Plasma DNA increased steadily during the first 4 days of glucocorticoid treatment (11.8 +/- 1.2 microg/ml on day 0; 24.2 +/- 1.6 microg/ml on day 4) beginning to decline afterward. Thymectomy but not splenectomy, drastically reduced the glucocorticoid-induced increase in plasma DNA. It is concluded that hormone-induced massive intra thymic cell death is followed by a delayed release of nucleosomal DNA into the circulation.

Ultrastructural and quantitative immunohistochemical changes induced by nonsteroid antiandrogens on pituitary gonadotroph population of prepubertal male rats.

Specific blockade of the androgen receptor by the nonsteroid antiandrogens flutamide and Casodex has proven to be a useful tool for studying androgens in vivo. The aim of the present study was to investigate the effect of antiandrogen administration at the pituitary level by evaluating the ultrastructural changes in gonadotrophs, in correlation with the quantitative immunohistochemical findings, and by comparing these alterations with the effect of androgen deprivation by castration either with or without subsequent androgen replacement. Male Sprague-Dawley rats (23 days old) were grouped as follows: (1) controls, (2) flutamide-injected (10 mg/rat/day), (3) Casodex-injected (10 mg/rat/day), (4) castrated, and (5) castrated plus androgen-replaced (dihydrotestosterone propionate; 40 microg/rat/day). Groups were sacrificed after 10 days of maintenance under each condition. Pituitaries were processed for both light and electron microscopy. Serial sections (4 microm) were obtained at different levels and immunostained by means of the primary murine monoclonal antibodies anti-FSH and anti-LH and a peroxidase-mediated EnVision System (Dako). Volume density, cell density and mean cell area were measured with an image analysis system (Imaging Technology, Software Optimas 5.2). The mean cell area (p < 0.001) and the volume density (p < 0.05) increased significantly in the flutamide- and Casodex-treated groups as well as the castrated group of FSH and LH cells. On the other hand, androgen replacement in the castrated rats, however, reduced in both parameters related to control animals. The cell density of FSH-secreting cells was increased (p < 0.05) in the Casodex and flutamide treatment as well as castrated group. The cell density of LH-secreting cells was augmented (p < 0.05) in the Casodex-treated group, while there was no increase in such parameter with flutamide and castration. The ultrastructure of all groups showed two types of gonadotrophs. Type I cells contained large (300-500 nm) and small (150-200 nm) secretory granules, while type II cells were smaller, and exhibited only small granules (100-200 nm). Flutamide-treated, Casodex-treated and castrated groups presented a decreased number of secretory granules with some exocytotic profiles, well-developed rough endoplasmic reticulum and an expanded Golgi complex of both types of cells. The gonadotrophs from the castrated group exhibited numerous mitochondria with electron-dense ring-shaped laminar figures, while in the castrated plus androgen-replaced rats only a few mitochondria had similar changes to those observed in castrated animals, as a possible residual alteration. Finally, the gonadotrophs from flutamide-treated rats showed mitochondrial alterations with clear areas and isolated electron-dense laminar figures. In summary, we conclude that lack of androgen reaction through the effects of nonsteroid antiandrogens and castration on prepubertal rats produced a hypertrophia-hyperplasia of the FSH cells, and hypertrophia of LH-secreting cells, with marked alterations at the ultrastructural level suggestive of a hyperstimulation stage.

Altered functional responses with preserved morphology of gonadotrophic cells in congenitally athymic mice.

Neonatal thymectomy or congenital absence of the thymus induces severe reproductive deficiencies in female mice, which are associated with reduced levels of circulating and pituitary gonadotropins. In contrast, the reproductive function is well preserved in nude males. It was therefore of interest to assess gonadotrophic cell morphology and function in congenitally athymic male mice. Circulating gonadotropins were measured under basal and stressful conditions, taking as a reference their haired counterparts. Adult normal (+/+), heterozygous nude (nu/+), and homozygous (nu/nu) CD-1 mice were subjected to 1-h immobilization stress. Serum levels of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) were assessed by RIA at 0, 30, and 60 min poststress. Athymic animals showed significantly lower basal levels of serum LH and FSH than their heterozygous littermates. Immunohistochemical assessment of LH and FSH cell populations revealed a normal morphology and cell number in the athymic animals compared to their normal littermates. Immobilization stress induced a significant reduction in gonadotrophin levels, particularly LH, in normal mice but had only a weak effect in athymic animals. It is concluded that congenital athymia in the adult male mouse is associated with decreased basal levels of serum LH and FSH, in the presence of a normal gonadotroph number and morphology. The anomalous responses of athymic mice to stress do not appear to be due to primary hypopituitarism but, rather, to an altered modulation of pituitary hormone secretion. .

Effect of undernutrition on cranial components and somatotroph-lactotroph pituitary populations in the squirrel monkey (Saimiri sciureus boliviensis).

The aim of the present study was to investigate in monkeys the effects of undernutrition on neurocranial and facial components, correlated with a histometric and ultrastructural analysis of somatotroph (growth hormone, GH) and lactotroph (prolactin, PRL) pituitary populations. Twenty Saimiri sciureus boliviensis (Cebidae) of both sexes were employed. The monkeys were born in captivity and when they reached 1 year of age, they were separated into two groups: control and undernourished animals. They were fed ad libitum a 20% and 10% protein diet, respectively. The monkeys were radiographed when they were 3 years old in order to measure the length, width and height of the anterior, middle and posterior components of the neurocranium, as well as those of the masticatory, respiratory and optic components of the face. The volumetric and morphometric indices were then calculated. After the sacrifice, pituitary glands were processed for light and electron microscopy. The quantitative immunohistochemistry revealed a decrease in the volume density and cell density of both GH and PRL cells from malnourished animals when compared to control ones. The ultrastructural study showed changes suggestive of cellular hyperfunction for both types of cells in the former experimental group. Under nutrition also affected the size of the cranial components, with males being more affected than females; brain weight was, however, nonmodified by stress, with the brain/body ratio difference being the same for both sexes. We conclude that in monkeys, experimental undernutrition produces a decrease in the pituitary GH and PRL cell populations, in some way related to changes in the cranio-facial morphometric patterns.

Morphometric and ultrastructural analysis of different pituitary cell populations in undernourished monkeys.

Undernutrition elicited by a low-protein diet determines a marked reduction of hypophyseal activity and affects the function of the respective target organs. The objective of the present investigation was to study the ultrastructural and quantitative immunohistochemical changes of the different pituitary cell populations in undernourished monkeys that had been previously shown to have significant changes in craniofacial growth. Twenty Saimiri sciureus boliviensis monkeys of both sexes were used. The animals were born in captivity and were separated into two groups at one year of age, i.e., control and undernourished animals. The monkeys were fed ad libitum a 20% (control group) and a 10% (experimental group) protein diet for two years. Pituitaries were processed for light and electron microscopy. The former was immunolabeled with anti-GH, -PRL, -LH, -FSH, -ACTH, and -TSH sera. Volume density and cell density were measured using an image analyzer. Quantitative immunohistochemistry revealed a decrease in these parameters with regard to somatotrophs, lactotrophs, gonadotrophs and thyrotrophs from undernourished animals compared to control ones. In these populations, the ultrastructural study showed changes suggesting compensatory hyperfunction. On the contrary, no significant changes were found in the morphometric parameters or the ultrastructure of the corticotroph population. We conclude that in undernourished monkeys the somatotroph, lactotroph, gonadotroph, and thyrotroph cell populations showed quantitative immunohistochemical changes that can be correlated with ultrastructural findings.

Morphometric and ultrastructural analysis of different pituitary cell populations in undernourished monkeys

Undernutrition elicited by a low-protein diet determines a marked reduction of hypophyseal activity and affects the function of the respective target organs. The objective of the present investigation was to study the ultrastructural and quantitative immunohistochemical changes of the different pituitary cell populations in undernourished monkeys that had been previously shown to have significant changes in craniofacial growth. Twenty Saimiri sciureus boliviensis monkeys of both sexes were used. The animals were born in captivity and were separated into two groups at one year of age, i.e., control and undernourished animals. The monkeys were fed ad libitum a 20 percent (control group) and a 10 percent (experimental group) protein diet for two years. Pituitaries were processed for light and electron microscopy. The former was immunolabeled with anti-GH, -PRL, -LH, -FSH, -ACTH, and -TSH sera. Volume density and cell density were measured using an image analyzer. Quantitative immunohistochemistry revealed a decrease in these parameters with regard to somatotrophs, lactotrophs, gonadotrophs and thyrotrophs from undernourished animals compared to control ones. In these populations, the ultrastructural study showed changes suggesting compensatory hyperfunction. On the contrary, no significant changes were found in the morphometric parameters or the ultrastructure of the corticotroph population. We conclude that in undernourished monkeys the somatotroph, lactotroph, gonadotroph, and thyrotroph cell populations showed quantitative immunohistochemical changes that can be correlated with ultrastructural findings

Immunohistochemical and ultrastructural study of pituitary folliculostellate cells during aging in rats.

The impact of aging on pituitary folliculostellate (FS) cells is not well known. The aim of the work reported here was to carry out a quantitative immunohistochemical assessment of the FS population in male and female rats during aging and to correlate the findings with possible changes at the ultrastructural level. Young (4 months), old (20 months) and senescent (29 months) Sprague-Dawley rats of both sexes were sacrificed by rapid decapitation, their pituitaries dissected and processed by both light immunohistochemistry and electron microscopy. Serial sections (4 microm) were obtained at different levels and immunostained by means of rabbit anti-S100 serum as the primary antibody and a peroxidase-mediated EnVision System (Dako). Measurement of volume density (VD) and cell density (CD) was made in S100-reacting elements by means of an image analysis system (Imaging Technology, Optimas). These parameters were found to be significantly (p < 0.05) decreased in old and senescent rats as compared to young animals. In senescent females, which presented a high incidence of microprolactinomas, a significant (p < 0.01) increment of VD and CD was observed in FS cells in the area surrounding the adenomas, together with a marked decrease in those parameters within the tumors. Sexual dimorphism was not found except for the prolactinoma-bearing female group. The ultrastructure of FS cells showed the typical characteristics previously described in the pituitary gland. Only moderate changes in the endoplasmic reticulum were observed in old and senescent animals. We conclude that aging has a clear effect on the morphology of the pituitary FS cell population.

Immunohistochemical and ultrastructural age-related changes in rat lactotroph cells

Ageing produces alterations in some functions of the hypothalamo-pituitary axis leading to sexually dimorphic changes in the prolactin (PRL)-secreting cells. Since quantitative morphological data of these age-associated alterations are scarce, we carried out a morphometric immunohistochemical assessment as well as an ultrastructural study of the PRL cell population in male and female rats of different ages. Young (3-month-old), old (20-month-old), and senescent (31-month-old) Sprague-Dawley rats of both sexes were sacrificed by rapid decapitation, their pituitaries immediately dissected out and processed for both immunohistochemistry and electron microscopy. Analysis of different morphometric parameters revealed that the cell density (CD) and volume density (VD) significantly decreased with age in male rats. In females, while CD showed a significant age-related diminution when young rats were compared to old ones, this parameter increased in senescent animals. The VD presented higher values in senescent rats. When the data were compared between sexes, VD was found to be higher in females if old and senescent rats were considered. Finally, CD increased significantly in females when compared to males. The ultrastructure of the PRL cells from old and senescent animals of both sexes exhibited changes suggestive of an hyperstimulation state, with some prolactotrophs having the appearance of cells undergoing an involutive process. We conclude that ageing has a differential impact on the PRL cells of male and female rats with respect to the immunohistochemical and ultrastructural features of that cell population

Immunohistochemical and ultrastructural age-related changes in rat lactotroph cells

Ageing produces alterations in some functions of the hypothalamo-pituitary axis leading to sexually dimorphic changes in the prolactin (PRL)-secreting cells. Since quantitative morphological data of these age-associated alterations are scarce, we carried out a morphometric immunohistochemical assessment as well as an ultrastructural study of the PRL cell population in male and female rats of different ages. Young (3-month-old), old (20-month-old), and senescent (31-month-old) Sprague-Dawley rats of both sexes were sacrificed by rapid decapitation, their pituitaries immediately dissected out and processed for both immunohistochemistry and electron microscopy. Analysis of different morphometric parameters revealed that the cell density (CD) and volume density (VD) significantly decreased with age in male rats. In females, while CD showed a significant age-related diminution when young rats were compared to old ones, this parameter increased in senescent animals. The VD presented higher values in senescent rats. When the data were compared between sexes, VD was found to be higher in females if old and senescent rats were considered. Finally, CD increased significantly in females when compared to males. The ultrastructure of the PRL cells from old and senescent animals of both sexes exhibited changes suggestive of an hyperstimulation state, with some prolactotrophs having the appearance of cells undergoing an involutive process. We conclude that ageing has a differential impact on the PRL cells of male and female rats with respect to the immunohistochemical and ultrastructural features of that cell population

Immunohistochemical and ultrastructural age-related changes in rat lactotroph cells.

Ageing produces alterations in some functions of the hypothalamo-pituitary axis leading to sexually dimorphic changes in the prolactin (PRL)-secreting cells. Since quantitative morphological data of these age-associated alterations are scarce, we carried out a morphometric immunohistochemical assessment as well as an ultrastructural study of the PRL cell population in male and female rats of different ages. Young (3-month-old), old (20-month-old), and senescent (31-month-old) Sprague-Dawley rats of both sexes were sacrificed by rapid decapitation, their pituitaries immediately dissected out and processed for both immunohistochemistry and electron microscopy. Analysis of different morphometric parameters revealed that the cell density (CD) and volume density (VD) significantly decreased with age in male rats. In females, while CD showed a significant age-related diminution when young rats were compared to old ones, this parameter increased in senescent animals. The VD presented higher values in senescent rats. When the data were compared between sexes, VD was found to be higher in females if old and senescent rats were considered. Finally, CD increased significantly in females when compared to males. The ultrastructure of the PRL cells from old and senescent animals of both sexes exhibited changes suggestive of an hyperstimulation state, with some prolactotrophs having the appearance of cells undergoing an involutive process. We conclude that ageing has a differential impact on the PRL cells of male and female rats with respect to the immunohistochemical and ultrastructural features of that cell population.

Relationship between pituitary hormones, antioxidant enzymes, and histopathological changes in the mammary gland of senescent rats.

In order to assess the possible involvement of endocrine factors and antioxidant enzymes (AOE) in the mammary pathology typically observed in old female rats, we undertook to determine the relationship between pituitary hormones, AOE activity, and histopathological changes in the mammary gland of senescent rats carrying neoplastic and nonneoplastic mammary pathologies. Serum levels of several pituitary hormones were determined by RIA in young (five months) and senescent (33 months) Sprague-Dawley female rats. The activity of catalase (CAT) and superoxide dismutase (SOD) in mammary tissue from the senescent animals was also determined. Senescent rats showed higher levels of prolactin (PRL) (p < 0.01), thyroid-stimulating hormone (TSH) (p < 0.05) and follicle-stimulating hormone (FSH) (p < 0.01) than their young counterparts. In senescent females the main histopathological findings at mammary level were a marked hyperplasia and the presence of fibroadenomas. In this group there was a positive correlation between serum levels of PRL and the activity of mammary SOD (p < 0.05). There was also a positive correlation between serum levels of FSH and the activity of mammary CAT (p < 0.001). Young females, rendered moderately hyperprolactinemic by means of anterior pituitary grafts, showed clear proliferative changes in their mammary glands. Senescent rats carrying fibroadenomas were less hyperprolactinemic than those with mammary hyperplasia (p < 0.05). Our results provide additional support to the idea that PRL may be a physiological modulator of mammary SOD activity and suggest that FSH can possibly influence the activity of CAT in mammary gland. They also suggest that tumorigenesis but not hyperplasia in rat mammary gland may be associated with low mammary SOD and CAT activities.

Sexual dimorphism in the age changes of the pituitary lactotrophs in rats.

It is known that aging is associated with alterations in hypothalamic and pituitary functions. In the present study, we have undertaken a quantitative immunohistochemical assessment of the lactotroph cell population as well as prolactin (PRL) secretion, in male and female rats of different ages. Pituitaries from young (3 months), old (20 months) and senescent (29 months) male and female Sprague-Dawley rats were processed for the immunohistochemical detection of lactotrophs. Serum PRL was measured by a homologous RIA. Additionally, the in vitro PRL secretory activity was estimated by perifusion of pituitary cells from senescent animals. Analysis of morphometric parameters revealed age-related changes of PRL cell population in animals of both sexes. The cell density (CD), surface density (SD) and volume density (VD) decreased with age in both male and female rats. However, CD as well as SD appeared to have increased in females when compared to males, either in young or old animals, while VD was higher only in old females. The pituitaries of senescent females displayed chromophobic microadenomas on a background of diffuse PRL cell hyperplasia. Prolactin serum levels showed a marked increase with age in females, but only a modest elevation in males. In senescent females, PRL production per cell was reduced. We conclude that in rats, there exists a clear sexual dimorphism in the age-related changes of pituitary PRL cells.

Age-dependent prolactin-releasing activity of nucleoproteins.

In previous studies we demonstrated that histone preparations possess multiple effects in vivo on pituitary hormone secretion and that these effects tend to disappear with age. We have now evaluated the in vitro effects of histone and nucleohistone preparations on the secretion of prolactin (PRL) in perifused pituitary cells from young (4 months) and senescent (29-33 months) female rats. Freshly dispersed pituitary cells were packed into short columns and were continuously perifused with serum-free medium. The substances to be tested were pumped through the perifusion circuit, at the end of which perifusate fractions were collected and hormones measured by specific radioimmunoassay (RIA). Quantitative immunohistochemistry was carried out on the pituitary glands from seven young and six senescent females. In vitro basal PRL release was similar in both age groups. Perfusion of cells with median eminence extract (1/90 to 1/10), histone H2A (100 to 1000 micrograms/ml) or nucleohistone (200 to 1000 micrograms/ml), generated PRL responses which were higher in young than in senescent cells. The pituitaries of the senescent animals were characterized, in most cases, by the presence of chromophobic microprolactinomas against a background of diffuse prolactotroph hyperplasia. Our results confirm previous evidence that circulating nucleohistones and histones may act as hypophysotropic signals. The morphologic alterations in PRL cell populations found in the sencscent rats may play role in the desensitization of the pituitary gland to nucleoproteins, and possibly to other hypophysiotropic molecules, with age.

Quantitative immunohistochemical changes in the endocrine pancreas of nonobese diabetic (NOD) mice.

The nonobese diabetic (NOD) mouse is an animal model that shares a number of clinical, genetic, and immunologic characteristics with human insulin-dependent diabetes mellitus. Since little is known about the morphometric cell profiles in the endocrine pancreas of these NOD animals, it was of interest to assess their changes in morphometry within the pancreatic islet cell types during two stages of this syndrome. Prediabetic (6-week-old) and diabetic (16-week-old) NOD female mice, as well as normal C57BL/6 female mice (15 weeks old), were used. Light microscopic immunocytochemical and morphometric methods were employed to study the endocrine cell populations. The immunoperoxidase technique for the identification of insulin, glucagon, somatostatin, and pancreatic polypeptide, as well as the point-counting method, was used on serial sections of pancreas tissue. Compared to those of normal and prediabetic mice, pancreata from diabetic animals showed a decrease in both the number of islets and the volume density of the endocrine component. Analysis of islet tissue revealed a significant diminution of B-cell volume density, as well as an increased A-, D-, and PP-cell volume density. A parallel variation in the number of B and non-B cells was also found. In addition, when the total pancreatic tissue surface was taken as reference, the fractional area occupied by all the different types of islet cells was seen to be diminished in a variable fashion. We conclude that the diabetic syndrome of NOD mice not only severely affects the B-cell mass, but also causes marked changes in the non-B endocrine-cell populations.

Altered thyrotropic and somatotropic responses to environmental challenges in congenitally athymic mice.

Neonatal thymectomy or congenital absence of the thymus induces morphologic alterations in pituitary somatotrophs as well as in thyroid epithelium. It was therefore of interest to assess somatotropic and thyrotropic cell morphology and the corresponding serum hormone levels in athymic nude mice under basal and stressful conditions, taking as a reference their haired counterparts. Normal (+/+), heterozygous nude (nul+) and homozygous (nu/nu) CD-1 mice were subjected to either 1-h immobilization stress or 2-h cold stress. Serum levels of growth hormone (GH), thyrotropin (TSH), thyroxine (T4), and triiodothyronine (T3) were assessed by RIA at 0, 30, and 60 min poststress. Athymic animals showed lower basal levels of serum TSH, GH, and T3, but not T4, than their heterozygous littermates. Immunohistochemical assessment of somatotropic and thyrotropic cell populations revealed a normal morphology in the athymic animals. Immobilization stress induced a marked reduction in GH and TSH levels in normal mice but had only a weak effect in athymic animals. Two hours of cold exposure caused a comparable increase in serum TSH in normal and athymic animals, whereas the serum T4 and T3 response to cold was greater in the athymic nudes. Cold exposure drastically reduced serum GH levels in normal animals but had only a weak effect in the athymic mice. We conclude that congenital athymia in the mouse is associated with decreased basal levels of serum TSH and GH in the presence of a normal somatotroph and thyrotroph morphology. The anomalous responses of athymic mice to stress do not appear to be due to primary hypopituitarism but rather, to an altered modulation of pituitary hormone secretion.

Immunohistochemical and radioimmunological assessment of thyrotrophs in the pituitary of aging rats.

Thyrotrophs were studied by quantitative immunohistochemistry in the pituitary gland of young (4 months), old (20 months) and very old (29 months) male rats. An attempt was also made to correlate morphometric parameters with serum levels of thyrotropin (TSH), thyroxine (T4) and triiodothyronine (T3). Cells were immunostained by the peroxidase-antiperoxidase method and hormones were measured in serum by specific radioimmunoassays. There was a marked age-related reduction in TSH cell number, volume density and surface density but a significant increase in TSH cell area and perimeter. Basal serum levels of TSH increased, T4 decreased and T3 remained unchanged with age. There was a highly significant (p < 0.001) negative correlation between serum TSH and T4, but no significant correlation was found between TSH and morphometric parameters. The present results suggest that aged rats possess a reduced but functionally preserved thyrotrophic cell population. The coexistence of high circulating levels of TSH with reduced serum T4 suggests that aging brings about a progressive desensitization of the thyroid to TSH.