Polymorphism of the fur pigmentation genes and the hormonal adaptation system in the water vole (Arvicola terrestris)

Postnatal ontogenesis of hormonal system of hypophysis - adrenal glands and hormonal reaction under stress conditions were examined in adult water mouse, which had polymorphic fur color genes. Black females (genotype aa), opposite to brown ones, (genotype AA, Aa) had changed postnatal ontogenesis of adrenal glands function and they had not hormonal reaction to the two days water deprivation.     

Structural–functional condition of the thyroid gland of red deer at different stages of postnatal ontogenesis

The histological structure and morphometric and some histochemical indices of thyroid gland of maral as a subspecies of red deer at the postnatal stage of ontogenesis were studied. It was established that the gland was structurally formed by the time of the birth. C-cells are detected at 6 months of age. With age, the ratio of follicles of different sizes changed: smaller forms predominate in newborns and those 6 months old, medium and large predominate in adults and in old deer. Histological, morphometric, and histochemical data indicate to activation of the thyroid gland in the period of intensive growth for up to 6 months and a gradual decrease in activity over the next years of life. During aging, along with an increase in stromal elements, large follicles with colloid are stretched and resorption processes in the follicles are reduced.     

Seminal ribonuclease of bulls - biosynthesis in normal and orchitic bulls and correlation with blood plasma hormone levels

In sexually mature and healthy bulls, seminal ribonuclease (AS RNase) is synthesized in the distal part of the corpus epididymidis, the cauda epididymidis, the ampullary glands and the seminal vesicles. Indirect immunofluorescence demonstrated AS RNase binding to the cytoplasmic droplets of bull spermatozoa.In bulls with orchitis, AS RNase synthesis decreases in accordance with the degree of damage to the Leydig cells and the drop in the blood plasma testosterone level. The organ most sensitive to decreased testosterone levels, from the aspect of AS RNase synthesis, is the epididymis and the least sensitive are the seminal vesicles. Hypertrophy of the adrenal cortex (in particular of the zona fasciculata and the zona reticularis) and elevated adrenocortical secretion - demonstrated by a raised cortisol concentration in the blood plasma of severely orchitic bulls - failed to inhibit AS RNase synthesis. Injections of Gn RH-LH and HCG raised the blood plasma cortisol, but not testosterone, concentrations in bulls with very severe orchitis. This also indicates serious damage to the Leydig cells in these bulls.     

Development of glands of internal secretion in birds and immaturely-born mammals

Certain general problems on foundation of the hormonal regulation mechanisms during the prenatal and early postnatal ontogenesis are discussed basing on the authors' own results and on the literature data. They concern development of the hypophysis and peripheral target-glands in immaturely-bone Mammalia and fowls. The data on foundation of the endocrine glands functional activity are compared in rats and hens. The notion on a relative autonomous hormonal function of the peripheral endocrine glands at early stages of ontogenesis is motivated.     

Comparative morphological analysis of peripheral endocrine glands of small mammals inhabiting areas with high levels of radioactivity and exposed to chronic irradiation in model experiments

Comparative study of cellular-tissue reactions in the endocrine organs (thyroid and adrenal glands and ovary) of rodents exposed to radiation under natural conditions (Radium station in the Komi Republic and 30-km zone of Chernobyl NPP) and under experimental conditions modeling chronic exposure is carried out. Evidence is found that low-dose chronic irradiation causes morphological disorders at different levels of structural organization (cellular-tissue, organism, and population levels). The experimental results show that the observed variations in the morphometric parameters of the thyroid and adrenal glands and ovary reflect natural changes in their functional activity (within the physiological limits). These changes are directed at the maintenance of homeostasis under altered conditions and have a compensatory and adaptive character. The effects of low-dose radiation in combination with other agents may be amplified at the level of cellular-tissue reactions. In comparison with the experimental results, natural conditions (high level of radioactivity due to α and β emitters, high natural radionuclides, toxic elements, and extreme climatic factors) induce more pronounced changes, including a significant increase in chromosomal and gene mutations in cells, destructive processes in the organs of the endocrine system, and disorders of reproductive functions.

     

Peculiarities of the ovary structure in the rat offspring developing under conditions of the removed thyroid gland of female rat with the thyroxine replacement therapy and external radiation exposure in utero

The influence of a single external gamma-radiation at a dose of 1.0 Gy (dose rate 9.08 x 10(-4) Gy/sec) on the 15th day of gestation in case of the removed complex of thyroid and parathyroid glands (thyroidparathyroidectomy) on the first day of gestation, as well as introduction of thyroxin and CaC12 on the structure of offspring ovary in postnatal ontogenesis (30-day old animals) was studied. It has been shown that thyroidparathyroidectomy of a female mother rat with thyroxine replacement therapy and irradiation, as well as the combination of these factors disturb the structure of ovarian tissues of the offspring. A single external irradiation on the 15th day of embryogenesis causes death of a considerable part of primordial follicles in the offspring ovary and growth of follicular layers in the secondary follicles. Thyroidparathyroidectomy of female rat on the first day of gestation with thyroxine replacement therapy causes delay in the development of follicles in the ovary at the early stages of maturation of 30-day old animals. The radiosensitivity of the ovarian tissues of the offspring that has been developed under the combined effect of the factors studied increases and results in an almost full loss of pool cells in the ovary of infant rats.     

Postnatal fate of the ultimobranchial remnants in the rat thyroid gland

The ultimobranchial follicles (UBFs) are considered embryonic remnants from the ultimobranchial body (UBB). They are follicular structures that vary in size and appearance depending on the age of the rat. The main objective of this article was to study the progressive changes in shape, size, and frequency of the UBFs in the postnatal rat, from birth to old‐age. To accomplish that objective, a systematic morphometric and incidental study of the UBF has been carried out in 110 Wistar rats of different ages and both sexes, divided into three groups: 1) young rats (5–90‐day‐old); 2) adult rats (6–15‐month‐old), and 3) old rats (18–24‐month‐old). The glands were serially sectioned and immunostained for calcitonin at five equidistant levels. According to our results, UBFs were observed in all thyroid glands but a more exhaustive sampling was occasionally necessary in male rats. In young rats, immature UBFs predominantly appeared whereas in adult rats, mature UBFs with cystic appearance and variable luminal content prevailed. We frequently found spontaneous anomalous UBFs in old rats, which we have termed as “ultimobranchial cystadenomata.” Additionally, in young rats, UBF areas significantly increased with age and they were larger when compared to that of normal thyroid follicles. Likewise, in adult rats, UBFs were significantly larger than normal thyroid follicles but only in female rats. In general, UBFs in females were also significantly larger than those found in male rats. Finally, all these differences related to UBFs together with a higher incidence in females of UB cystadenomata suggest a sexual dimorphism in regard to the destiny of these embryonic remnants during postnatal thyroid development. J. Morphol., 2013. © 2013 Wiley Periodicals, Inc.     

Widespread expression of zinc transporter ZnT (SLC30) family members in mouse endocrine cells

Zinc is abundant in most endocrine cell types, and plays a pivotal role in the synthesis and secretion of many hormones. Recent studies have demonstrated the expression of numerous zinc transporter (ZnT) family members in the pancreas, thyroid, and adrenal glands, suggesting a role for ZnTs in regulating cellular zinc homeostasis in endocrine cells. However, the cellular distribution of ZnTs in the endocrine organs has not been well established. In the present study, the mRNA expression level, cellular distribution of ZnTs as well as liable zinc ions were examined in the mouse pituitary, adrenal glands, thyroid, and pancreas. In general, ZnT1-10 mRNA was expressed to various degrees in the detected endocrine organs, with no detectable ZnT10 mRNA in the pancreas. In the anterior pituitary, both the acidophilic and basophilic cells were immunopositive to ZnT1-5, 7, 8, except for ZnT10. In the adrenal cortex, the immunoreactivity of all the tested ZnTs, including ZnT1-5, 7, 8, 10, was observed in the zona fasciculata, and some ZnTs were detected in the zona glomerulosa, zona reticularis, and the adrenal medulla. Both the follicle epithelial cells and parafollicular cells in the thyroid gland were immunostained with ZnT1-5, 7, 8, but not ZnT10. In the endocrine pancreas, the immunoreactivity of tested ZnTs was observed to various degrees except for ZnT10 in the cytoplasm of islet cells. Furthermore, autometallographic staining showed that liable zinc was observed in the endocrine cells, such as the adrenal cortical cells, thyroid follicle epithelial cells, and the pancreatic islet cells. All together, the wide distribution of liable zinc and the phenomenon that numerous ZnT family members are partially overlapped in a subset of endocrine cells suggest an important role for the ZnT family in controlling cellular zinc levels and subsequently regulating the synthesis and secretion of hormones in the endocrine system.     

实验性脾虚证大鼠内分泌腺形态学与细胞化学研究

成年Ｗｉｓｔａｒ大鼠２０只,分对照组和实验组。实验组用大黄煎剂灌服４２天致实验性脾虚证。对两组睾丸,肾上腺和甲状腺进行常规形态学与细胞化学观察。形态学显示：睾丸,肾上腺和甲状腺的组织和细胞均有不同程度的损伤。细胞化学显示：各内分泌腺均表现酸性磷酸酶（ＡＣＰ）减弱,个别内分泌腺细胞显示琥珀酸脱氢酶（ＳＤＨ）,三磷酸腺苷酶（ＡＴＰａｓｅ）和ＰＡＳ反应的变化。结果证明脾虚证不仅消化系统功能低下,而且内分泌功能也受到了影响     

The reaction of the thyroid in the frog Rana temporaria to arginine-vasotocin administration

Using morphometric technique, it has been shown that single and especially three successive injections of a hypothalamic nonapeptide neurohormone, arginin-vasotocin (5.10(-9) M/kg of body weight) affect functional activity of the thyroid gland in sexually mature male frogs which had been subjected to hypophysectomy 10 or 60 days before neurohormonal treatment. These data presumably confirm a hypothesis about the direct para-adenohypophysial influence of the hypothalamic nonapeptide neurohormone on the peripheral endocrine glands, particularly, the thyroid one.     

Immunohistochemical localization of huntingtin-associated protein 1 in endocrine system of the rat.

Huntingtin-associated protein 1 (HAP1) was originally found to be localized in neurons and is thought to play an important role in neuronal vesicular trafficking and/or organelle transport. Based on functional similarity between neuron and endocrine cell in vesicular trafficking, we examined the expression and localization of HAP1 in the rat endocrine system using immunohistochemistry. HAP1-immunoreactive cells are widely distributed in the anterior lobe of the pituitary, scattered in the wall of the thyroid follicles, or clustered in the interfollicular space of the thyroid gland, exclusively but diffusely distributed in the medullae of adrenal glands, and selectively located in the pancreas islets. HAP1-containing cells were also found in the mucosa of stomach and small intestine with a distributive pattern similar to that of gastrointestinal endocrine cells. However, no HAP1-immunoreactive cell was found in the cortex of the adrenal gland, the testis, and the ovary. In the posterior lobe of the pituitary, HAP1-immunoreactive products were not detected in the cell bodies but in many stigmoid bodies, one kind of non-membrane-bound cytoplasmic organelle with a central or eccentric electron-lucent core. HAP1-immunoreactive stigmoid bodies were also found in the cytoplasm of endocrine cells in the thyroid gland, the medullae of adrenal gland, the pancreas islets, the stomach, and small intestine. The present study demonstrates that HAP1 is selectively expressed in part of the small peptide-, protein-, and amino-acid analog and derivative-secreting endocrine cells but not in steroid hormone-secreting cells, suggesting that HAP1 is also involved in intracellular trafficking in certain types of endocrine cells.     

Noise Induces Hypothyroidism and Gonadal Dysfunction Via Stimulation of Pineal–Adrenal Axis in Chicks

Noise is a world-wide problem that causes nervous, endocrine and cardiovascular disorders, and eventually health hazards in humans and animals. Objective of the current work is to investigate endocrine interaction in noise stress, which subsequently affects other endocrine functions including gonads in a poultry bird like chicks. Gravimetric, ultrastructural and hormonal status of the endocrine organs were examined to ascertain the effects of noise stress. Acute noise at 60 dB had no effect, but at 80 and 100 dB each for 3 h, increased pineal and serum serotonin, and adrenal and serum corticosterone, epinephrine and norepinephrine concentrations, without any change in thyroid or gonadal hormones. Chronic noise exposure at 60, 80 and 100 dB each for 6 h, daily for 7 days, drastically disturbed normal behavior, and quantum of food consumption and water intake. Chronic exposure also significantly decreased body weight including thyroid, ovary and testis weight, and increased adrenal weight. Noise stress caused ultrastructural changes leading to stimulations of pinealocytes (with abundance of rough endoplasmic reticulum and mitochondria), adrenocortical cells (enlarged nuclei and abundance of smooth endoplasmic reticulum) and adrenomedullary cells (enlarged nuclei with presence of chromaffin granules) were observed in noise stress. Additionally, pineal and serum serotonin, N-acetyl serotonin and melatonin, and adrenal and serum corticosterone, epinephrine and norepinephrine levels were significantly elevated following chronic noise exposure. Contrarily, thyroid activity was suppressed with atrophied thyroid follicles followed by declined levels of serum T₃ and T₄ with elevation of TSH level. Simultaneously, serum 17β-estradiol (E₂) and testosterone (T) concentrations were also significantly declined in all the doses of chronic noise. These changes were dose dependent of noise exposure. The findings suggest that (a) adrenal and pineal glands respond primarily to noise and secondarily act on other endocrine organs including gonads in chicks, (b) adrenal directly and/or indirectly causes thyroid and gonadal dysfunctions via pineal following noise exposure in chicks.     

The hypothalamo-hypophysial system of the lemming, Dicrostonyx torquatus Pallas. III. Population aspects of neuroendocrine regulation

The structure and ultrastructure of the following regions of the hypothalamo-hypophysial neurosecretory system (HHNS) in the population cycle of lemming were studied: supraoptic (SON), paraventricular (PVN) and arcuate nuclei (AN), the median eminence (ME) and posterior pituitary (PP). Being compared to the state of endocrine glands and gonads, and the level of reproduction stress in the population cycle of the lemming described earlier, the obtained data revealed a certain regularity. First, at the stages of decrease, increase and in the first period of the stage of population peak the activity of the SON-PP complex and AN is gradually increased. This coincides with intensified reproduction, intensified functioning of the thyroid gland and adrenal cortex. Second, while the population is decreasing, all the above functions become depressed, except that of the thyroid gland which, on the contrary, becomes active. In the second period of the stage of population peak, when reproduction stops abruptly, this regularity, however, does not hold, the activity of SON-PP complex and AN is sharply lowered, whereas that of PVN becomes very high. The structure of the thyroid damaged as a result of previous hyperfunction, is restored, and the adrenal cortex shows signs of hypercorticism. The present work is devoted to specificity of the HHNS functioning at the stage of population peak, referred to as crucial, and the pathways and mechanisms by which neurohormones produced by this system can affect the endocrine glands. In addition, the causes likely to lead to the mass death of animals at this stage, and biological significance of this fact are also given attention to.     

Endocrine Involvement in Systemic Amyloidosis

ObjectiveTo present an overview of the published data on endocrine involvement and endocrine dysfunction in patients with systemic amyloidosis.MethodsWe conducted a review of the medical literature using MEDLINE data sources, including clinical trials, in vitro studies, and case reports on pituitary, thyroid, parathyroid, pancreatic, adrenal, and gonadal involvement in systemic amyloidosis.ResultsReports of endocrine involvement in systemic amyloidosis seem to consist primarily of small-samplesize clinical trials or case reports, probably because of the rarity of the disease itself. Systemic amyloidosis mainly involves and causes functional impairment in the thyroid and testes in the endocrine system. Evaluation of adrenal function necessitates special consideration because amyloid infiltration of the adrenal glands resulting in failure may be a life-threatening condition. Amyloid deposition commonly seen in the pituitary gland and the pancreas of patients with Alzheimer disease and type 2 diabetes mellitus, respectively, is generally classified as local amyloidosis and should not be confused with systemic involvement. Additionally, detection of amyloid deposition in the thyroid and testes may have a diagnostic role in patients with suspected systemic or renal amyloidosis.ConclusionPublished data suggest that systemic amyloidosis frequently involves the endocrine system, and endocrine dysfunction seems to be not as rare as previously thought. A rapidly growing goiter or symptoms and signs of adrenal or gonadal dysfunction should raise suspicion of amyloid infiltration. Involvement of pituitary, parathyroid, and pancreatic sites in systemic amyloidosis still remains to be clarified. Further studies with larger sample sizes are needed for complete characterization of the effect of systemic amyloidosis on the endocrine system. (Endocr Pract. 2010;16:1056-1063)     

Morphometric studies on the development of human thyroid gland in early fetal life.

Histological and morphometric studies were performed on 30 thyroid glands obtained from normal human fetuses. Their crown-rump length (CRL) ranged from 57 to 190 mm, corresponding to the gestational age of 10-20 weeks. The weight of the thyroid gland increased proportionally in relation to CRL, foot length and fetus weight. The first follicles containing PAS-positive colloid were observed in the peripheral part of the thyroid gland of 57 mm CRL fetus. The number of follicles per 1 mm2 of thyroid surface section increased up to 85 mm CRL and thereafter gradually declined for the end of studied period of fetal life. The volumes (in mm3) of thyroid epithelium, colloid and stroma, beginning from 85 mm increased proportionally to the CRL while the height of epithelial cells did not change. The epithelium/colloid ratio decreased notably to 165 mm CRL and thereafter remained constant. Results of the present study suggest that the thyroid gland of human fetus approaches structural maturity in 17.5 week of gestation.     

Effect of lithium chloride on thyroid structural elements in the rat and on the balance of calcitropic hormones

Chronic experiments were performed to study the effect of lithium chloride on morphological and functional characteristics of rat thyroid and on the endocrine regulation of calcium metabolism. As a result of a prolonged exposure to low doses of lithium the thyroid manifests the signs of activation of tissue structures. As the lithium dose is raised, the thyrostatic effect of lithium occurs according to the mechanism similar to the Wolff-Chaikoff effect (colloid accumulation by follicles and suppression of hormones secretion into blood). Lithium chloride stimulates calcitonin production by C cells of the thyroid. However, the increase of the basal level of calcitonin has no substantial effect on calcium metabolism in the animals, since such an increase is accompanied by increment of the production of the physiological antagonist parathyroid hormone by the secretory cells of the parathyroid glands.     

Decrease of TSH levels and epithelium/colloid ratio in rat thyroid glands following administration of proadrenomedullin N-terminal peptide (12-20).

Adrenomedullin (AM) exerts a potent and long-lasting hypotensive effect and is considered to be an important hormone in blood pressure control. AM is a 52-amino-acid peptide synthesized as part of a 185-amino-acid preprohormone that also contains 20-amino-acid residues in the N-terminus, which has similar biological activity. This sequence is named a proadrenomedullin N-terminal 20 peptide (PAMP). Also, proadrenomedullin N-terminal peptide (PAMP)(12-20) exerts vasodepressor response, however this response is 3-fold less potent than the effect evoked by full-sequence peptide. Both AM and PAMP controls secretory activity of the pituitary gland and adrenal cortex, however, their action on the other endocrine glands is not recognized. Therefore, the aim of the study was to examine whether PAMP(12-20) is able to affect the structure and function of the rat thyroid gland. In adult female rats, subcutaneous PAMP(12-20) administration (1 or 4 nmol/rat/day for 6 days, autopsy 60 min after the last injection) had no effect on the weight of the thyroid gland. Peptide administration however, resulted in a dose-dependent increase in the volume of thyroid colloid, and lowered epithelium/colloid ratio in the gland (3.76 +/- 0.49, 2.66 +/- 0.27, 2.38 +/- 0.26, means +/- SE, n = 6, control, 1 and 4nmol PAMP/rat, respectively). PAMP administration changed neither the length of thyroid capillaries per unit area of surface nor their diameter. Lower dose of PAMP(12-20) significantly lowered blood TSH concentration (p < 0.01) while total and free T3 and T4 concentrations remained unchanged. Collectively, these findings suggest that PAMP(12-20) exerts a mild inhibitory effect on secretory activity of the rat thyroid gland.     

Evidence of the occurrence of calcitonin cells in the ultimobranchial follicle of the rat postnatal thyroid.

A study on thyroid glands of Wistar rats of ages ranging from 1 to 120 days was carried out. The glands were serially sectioned and stained for calcitonin using the peroxidase antiperoxidase method. All the thyroids contained ultimobranchial follicles (UBF) located partially embedded among the usual follicles but in a 5-day-old rat this structure showed an unusual position in the interstitium of connective tissue between the cartilage of the trachea and the thyroid gland. We have observed in the wall of that UBF the presence not only of resting C cells but also mitotic figures of C cells. Furthermore, on the opposite side of the same UBF an active area of formation of thyroid follicles was found. These observations provided the first evidence of the contribution of the UBF in the formation of C cells during the postnatal life of the rat. Furthermore, it is suggested that some C cells may share a common origin with ultimobranchially derived follicular cells.     

Sex differences in adrenocortical structure and function

Summary Adrenal glands of adult male hamsters are larger and secrete more cortisol than those of females. Stereology was therefore used to study zonal and cellular aspects of development of the adrenal cortex of male and female hamsters. Adrenal glands were studied at weekly intervals from day 21 to day 77 of postnatal ontogenesis. Within this period, body weight did not differ significantly between the sexes. During development, absolute and relative adrenal weights were higher in males; their zona glomerulosa (ZG), zona fasciculata (ZF) and zona reticularis (ZR) become markedly larger than those in females. No marked changes in the volume of individual ZG cells occurred although ZF cells and ZR cells become larger in male than female animals. The total number of adrenocortical cells increased within the period studied, a greater increase being observed in ZG and ZF in males. No distinct sex difference was observed in the number of ZR cells throughout development. From day 56 of postnatal life the adrenal cortex of male hamster contained more parenchymal cells than the female gland. These results thus indicate that sex differences in hamster adrenal cortex depend upon changes in number and size of parenchymal cells.Supported in part by a grant from the Committee of Zoology, Polish Academy of Sciences     

Neuroendocrine aspects of aging: experimental data

Aging is characterized by changes in neuroendocrine/endocrine functions which are manifest in female reproductive physiology and less perceptible in other functions such as thyroid, adrenal or growth/metabolic functions. The contribution of each level of the axis - hypothalamus, adenohypophysis or peripheral tissues - is not clearly established. Functional impairments with age are recognized in the peripheral glands (gonad, thyroid, adrenal) as well as in the pituitary, but increasing evidence is accumulating for a marked contribution of the hypothalamus in the age-associated endocrine changes observed in animals and humans. In old rats, multineuronal dysfunctions are demonstrated in the hypothalamus, with a documented decline in the activity of the neurons producing dopamine and thyrotropin-releasing hormone, and to a lesser extent luteinizing hormone- and growth hormone-releasing hormones, and alterations in regulatory mechanisms of these neurons are disclosed. Moreover, impairments are observed in the processing - binding, accumulation and intracellular distribution - of hypothalamic hormones in the adenohypophysis of old rats. Taken together, these observations are supportive of the view that the neuroendocrine/endocrine changes appearing with age result from a complex balance of functional alterations occurring at each level - central and peripheral - of the axis.