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

The comparative study of cellular-tissue reactions in endocrine organs (thyroid and suprarenal glands, ovary) of rodents exposed to radiation in natural conditions (Radium station in Komi Republic and 30-km zone of Chernobyl APP) and experimental conditions modeling the chronic exposure has been conducted. There is evidence that chronic irradiation in low doses causes morphological disorders in different levels of structural organization (cellular-tissue, organism and population levels). The experimental results showed that observed variations in thyroid, suprarenal glands and ovary by morphometric parameters reflect the natural changes in their functional activity (within the physiological limits). These changes are directed at the homeostasis maintenance in changed conditions and have a compensatory and adaptation character. The effects of low dose radiation influence with combination of other agents may be amplified at the cellular-tissue reactions level. In comparison with experimental results, the natural conditions (high level of radioactivity with alpha- and beta-emitters, high natural radionuclides, toxic elements and extreme climatic factors) induce more expressed changes as a significant increasing of chromosomal and genes mutations in cells, destructive processes in organs of endocrine system and disorders of reproductive functions.     

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.     

Biological effects of phytoecdysteroids and chronic low-dose irradiation

The influence of serpistene in dose of 5 and 50 mg/kg on chronic low-dose gamma-irradiation (22.6 cGy) effects on cytogenetic (abnormal sperm cell, marrow bone micronucleus) and function and morphology (thyroid and adrenal glands) parameters of mice was estimated. The serpistene modifies effects of gamma-irradiation depends on the administration regime and a dose of the substance. The most expressive radioprotective effect on endocrine organs after serpistene prophylactic administration was found. The prophylactic dose was 5 mg/kg for adrenal gland and both doses--for thyroid gland. The most expressive radioprotective effect on marrow bone cells after serpistene therapeutic administration in a dose of 5 mg/kg was found. The most expressive antimutagenic effect on somatic and germinal cells of prophylactic and therapeutic administration in a dose of 50 mg/kg was found.     

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     

Effect of short photoperiod on organ growth kinetics and serum hormone profile in pullets of domestic fowl, Gallus gallus domesticus

Effect of short photoperiod (SP; LD 6:18) treatment on serum hormone profile and growth rate of adrenal, thyroid, ovary, oviduct, liver and lymphoid organ was studied in rearing pullets (RIR breed) of 1 to day 90 old. Body weight and growth index of SP pullets were lesser as compared to pullets reared under LD 12:12. Except for ovary (recorded marginal increment), weights and growth indices of thyroid, adrenal and oviduct decreased under SP. Weight of liver and lymphoid organs was higher at 30 and 90 days, in SP pullets as compared to LD 12:12. Histometric data suggested that the transition from small to big follicles was slow in ovary of SP pullets, and also reduced follicular atresia was noted in SP pullets. Except for higher corticosterone level at 30 days and higher progesterone level at 30 and 60 days, relative levels of all the hormones at all other ages were lower in SP pullets. In general, the present observations suggested intraovarian changes in pullets exposed to SP.     

Histomorphic changes following chronic adrenocortical activation and inhibition in the pigeon

Gravimetric and histologic modifications in the pigeon were studied following chronic therapy with ACTH and metopirone (SU 4885) for a period of 15 days. The organs studied were proventriculus, duodenum, heart, kidney, salivary gland, pancreas, liver, uropygial gland, thymus, spleen, bursa fabricii, testis, ovary, islets of Langerhans, adenohypophysis, thyroid and interrenal and chromaffin tissue of the adrenal gland. Induced states of hyper- and hypoadrenocorticalism elicited pathomorphic changes in endocrine and reproductive systems and some other organs of the pigeon. There were many differences and similarities in the nature of response of some organs following the two experimental conditions. Many of these cellular interactions might have resulted from alteration of interrenal function in the pigeon.     

Morphometric structure of thyroid and adrenal glands in bulls under different modes of adaptive technology

This work was carried out to study dynamics of morphometric structure of thyroid and adrenal glands in bulls brought up in early postnatal ontogenesis at lowered (-4.4-(-)8.0 degree centigrade) and raised (8.7-20.5 degree centigrade) environment temperature with further grow and fattening using intensive technology with application of new biogenic matters. For the first time it has been experimentally proved the expediency of correction of morphometric structure of investigated endocrine glands in bulls under condition of joint application of Suvar with Polistim or with DAFS-25 during the various periods of postnatal ontogenesis. Special features of morphometric structures of the thyroid glands (diameter, the area of follicles, thickness of thyroid epithelium, follicles index) and the adrenal glands (weight, width of zones of cortical and brain substances, the areas of cells and nuclei, and nuclear cytoplasmic ratio) in animals maintained under condition of adaptive technology have been investigated. It has been established that the endocrine glands morphometric parameters in bulls brought up at both lowered and raised temperature are more relief under combined effect of Suvar and DAFS-25 than Suvar and Polistim.     

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.     

About the relationship between adrenal cortex and thyroid gland of rats (shift-effect).

In the present paper the inverse quantitative relationships between the thyrotropical system and the adrenocorticotropical system should be demonstrated under different acute experimental conditions by caryometric investigations. In stimulating the adrenal cortex system by a single injection of 0.2 ml saline solution (0.9%)/rat the nuclear sizes of the thyroid follicular cells decreased timedependend whereas the nuclear parameters of adrenal cortex fasciculata cells increased. In inhibiting the adrenal cortex system and stimulating the thyrotropical system by a single injection of 50 micrograms TRH/rat the thyroid nuclear values increased timedependend biphasically and the adrenal cortex parameters decreased correspondingly. The inverse relationships of the histometric parameters of both endocrine organs proved to be highly significant (p less than or equal to 0.001). The mathematical relations could be expressed by the straight line y = 63.76 - 1.05 x.     

The effect of a deficiency of the hormones of the peripheral endocrine glands on behavioral, learning and memory processes]

A comparative study of the effects of thyroid, adrenal, and gonadal deficit on capability for learning, retention of memory traces, and behavior was carried out in male rats under conditions of hormonal disbalance produced by extirpation of the endocrine glands. Behavior of animals was tested during the active and passive avoidance learning and in the open field. It was found out that the extirpation of the peripheral endocrine glands impairs learning and reproduction of the acquired reaction and alters the behavior. The results suggest that corticosteroid hormones take part in learning and behavior. Gonadal and thyroid hormones appear to exert a modulating influence on the higher nervous activity.     

白暨豚肾上腺的研究

白鱀豚肾上腺重与体重的平均比值为0.25克/公斤,皮质体积与髓质体积的比值为6.59。白鱀豚肾上腺的组织结构与其它海豚相似,它有比较发达的球状带。讨论了白鱀豚肾上腺形态变化在年龄生长、授乳等生理过程和在自然环境、豢养环境生态适应上的意义。并报道了一例罕见的白鱀豚肾上腺先天性表皮样囊肿。       

PD-L1 Expression in Normal Endocrine Tissues Is Not Increased Despite High Incidence of PD-1 Inhibitor-Associated Endocrinopathies

ObjectiveTreatment with immune-checkpoint inhibitors often results in endocrine immune-related adverse events (irAEs), affecting the pituitary, thyroid, adrenal, and parathyroid glands and pancreas. The mechanism underlying the endocrine irAEs has not been fully elucidated, and it remains unclear why endocrine organs are so commonly affected. In the present study, we evaluated immunostaining patterns of programmed death-ligand 1 (PD-L1) in normal endocrine tissues to determine whether increased expression may explain the predilection of endocrinopathies in patients treated with programmed cell death-1 inhibitors.MethodsNormal formalin-fixed paraffin-embedded endocrine tissues (pituitary, thyroid, adrenal, pancreas, and parathyroid) were collected from our hospital’s pathology tissue archive. The tissues were assessed for membranous and cytoplasmic PD-L1 immunostaining using the Dako 22C3 pharmDx assay on an automated staining platform.ResultsWe examined 49 endocrine tissues, including 12 thyroid, 5 pancreatic, 17 adrenal, 5 parathyroid, and 10 pituitary samples. Samples with less than 1% membranous PD-L1–positive cells were considered negative, while those with more than 1% of PD-L1 membranous staining were considered positive. Immunostaining result of immune-related cells was also evaluated, considering the cytoplasmic PD-L1–positive cells with the same cutoff of 1%. None of the endocrine tissues demonstrated PD-L1 positivity higher than 1% in the relevant cells.ConclusionWhile our results do not suggest a role of PD-L1 expression in the pathogenesis of endocrine irAEs, they may serve as a basis for future studies further investigating the mechanisms of autoimmune, inflammatory, or malignant endocrine conditions.     

Perspectives in Endocrine Toxicity of Heavy Metals—A Review

An attempt has been made to review the endocrine/hormonal implications of a few environmentally significant metals, viz, lead, mercury, cadmium, copper, arsenic and nickel, in man and animals. Special emphasis has been given to the adrenals, thyroid, testis, ovary and pancreas. Toxic metals can cause structural and functional changes in the adrenal glands. Their effects on steroidogenesis have been reviewed. It has been reported that thyroid hormone kinetics are affected by a number of metallic compounds. Occupational exposure to a few of these metals can cause testicular injury and sex hormone disturbances. Protective effects of a few antioxidants on their reproductive toxicity have also been discussed. Information gathered on female reproductive toxicity of heavy metals shows that exposure to these metals can lead to disturbances in reproductive performance in exposed subjects. Certain metals can cause injury to the endocrine pancreas. Exposure to them can cause diabetes mellitus and disturb insulin homeostasis. The need to develop molecular markers of endocrine toxicity of heavy metals has been suggested. Overall information described in this review is expected to be helpful in planning future studies on endocrine toxicity of heavy metals.     

Role of cyclic AMP in the action of dopaminergic D2 receptors of some endocrine glands in rats

Short-term and long-term effects of bromocriptine mesylate (10 mg/kg i.p.) on cyclic AMP contents of the liver and some endocrine glands have been investigated in the presence and absence of sulpiride (10 mg/kg i.p.). Results revealed that bromocriptine caused significant elevations in the cyclic AMP contents of the liver and reduction in its adrenocortical content. Bromocriptine effect on the adrenal cortex was antagonized by sulpiride, whereas its effect on the liver was not changed. Bromocriptine did not change the, cyclic AMP content in the thyroid gland or the ovary.     

A dual-color luciferase assay system reveals circadian resetting of cultured fibroblasts by co-cultured adrenal glands

In mammals, circadian rhythms of various organs and tissues are synchronized by pacemaker neurons in the suprachiasmatic nucleus (SCN) of the hypothalamus. Glucocorticoids released from the adrenal glands can synchronize circadian rhythms in other tissues. Many hormones show circadian rhythms in their plasma concentrations; however, whether organs outside the SCN can serve as master synchronizers to entrain circadian rhythms in target tissues is not well understood. To further delineate the function of the adrenal glands and the interactions of circadian rhythms in putative master synchronizing organs and their target tissues, here we report a simple co-culture system using a dual-color luciferase assay to monitor circadian rhythms separately in various explanted tissues and fibroblasts. In this system, circadian rhythms of organs and target cells were simultaneously tracked by the green-emitting beetle luciferase from Pyrearinus termitilluminans (ELuc) and the red-emitting beetle luciferase from Phrixothrix hirtus (SLR), respectively. We obtained tissues from the adrenal glands, thyroid glands, and lungs of transgenic mice that expressed ELuc under control of the promoter from a canonical clock gene, mBmal1. The tissues were co-cultured with Rat-1 fibroblasts as representative target cells expressing SLR under control of the mBmal1 promoter. Amplitudes of the circadian rhythms of Rat-1 fibroblasts were potentiated when the fibroblasts were co-cultured with adrenal gland tissue, but not when co-cultured with thyroid gland or lung tissue. The phases of Rat-1 fibroblasts were reset by application of adrenal gland tissue, whereas the phases of adrenal gland tissue were not influenced by Rat-1 fibroblasts. Furthermore, the effect of the adrenal gland tissue on the fibroblasts was blocked by application of a glucocorticoid receptor (GR) antagonist. These results demonstrate that glucocorticoids are strong circadian synchronizers for fibroblasts and that this co-culture system is a useful tool to analyze humoral communication between different tissues or cell populations.     

Effects of thyroidectomy and submaxillary sialoadenectomy on physiological parameters in the female rat

The effects of interaction of the thyroid function with the submaxillary glands on the female rat, on the body growth, weight evolution of adrenal glands, ovary and parotid glands, puberty onset, estrous cycle, fertility, gestation and offspring size, plasmatic levels of glucose, glucagon, Na+, K+ and total protein have been studied. The effects of sialadenectomy and thyroid function are both independent in all parameters, except in ovary growth, which is depressed by thyroid function when submaxillary glands are removed, and in circulating glucose, since sialadenectomy stabilizes to hypoglycemia which results from thyroidectomy.     

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.     

Microwaves in the Induction of Immune Response to VI-Antigen

In this work the possibility of using microwaves (MW) for immuno-modulation in the immunization of animals with thymus-independent antigen was studied. The projection zones of the thyroid and adrenal glands of the test animals were subjected to the action of decimeter MW, while the corresponding zones of control animals were subjected to imitation MW. The endocrine activity of rabbits was estimated by radioim-mune methods. Vi-antigen was shown to be a thymus-independent antigen for rabbits, according to the results of fluorescent probes to study the structural rearrangements in surfaces of thymocyte membranes and their nuclei, which reflect early changes during the physiological activation of cells. The irradiation by MW on the projection zone of the thyroid was accompanied by a decrease in the glucocorticoid activity of the adrenal cortex and a simultaneous pronounced immunostimulating effect. MW irradiation of the zone of the adrenal glands was accompanied by immunosuppression in combination with enhanced glucocorticoid activity of the adrenal cortex.     

Endocrine responses to space flights

Simultaneously with human space flights several series of observations were performed by using experimental animals--mainly rats--exposed to space flights on board of special satellites BION-COSMOS or in Shuttle Transportation Systems (STS). The aims of these experiments were to study in more details: the mechanisms of the changes in bones and skeletal muscle, the alterations of the function of immune system, the radiation effects on organism, the mechanism of the changes of endocrine functions, the evaluation of the role of hormones in alteration of metabolic processes in organism. The advantages of these animal experiments were the possibilities to analyze not only the plasma samples, but it was possible to obtain samples of organs or tissues: for morphological and biochemical analysis for studies of the changes in enzyme activities and in gene expressions, for measurement of metabolic processes and for investigation of the hormone production in endocrine glands and estimation of the response of tissues to hormones. It was also possible to compare the endocrine response to spaceflight and to other stress stimuli. These animal studies are interesting for verification of some hypothesis in the mechanism of adaptation of human organism to the changes of gravity. The disadvantage was, however, that the animals in almost all experiments could be examined only after space flight. The actual inflight changes were investigated only in two SLS flights. In this short review it is not possible to evaluate all hormonal data available on the response of endocrine system to the conditions of space flights. Therefore we will concentrate on the response of pituitary adrenocortical system, pituitary thyroid and pituitary gonadal functions.