Phenylethanolamine N-methyltransferase-(PNMT)-like immunoreactivity in the rat parathyroid gland

A phenylethanolamine N-methyltransferase-(PNMT)-immunoreactivity, present without the other catecholamine-synthesizing enzymes tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase (DBH), has been previously detected in the central nervous system and in endocrine cells of the islets of Langerhans and the pituitary intermediate lobe of the rat. In the present study a similar PNMT-like immunoreactivity is demonstrated in the rat parathyroid gland. The immunoreactivity was distinctly localized to the cell periphery, and present in all glandular cells. The thyroid gland was negative. In the parathyroid TH- and DBH-immunoreactivity was seen only in vascular nerve fibers; no glandular cells were stained. The functional significance of the PNMT-like immunoreactivity is not known. The absence of TH- and DBH-immunoreactivity and the low level of adrenaline detected in the parathyroid, and the peripheral localization of the immunoreactivity may indicate an alternative enzyme function or the detection of an immunologically related protein common to pancreatic, pituitary and parathyroid endocrine cells.     

Phenylethanolamine N-methyltransferase-(PNMT)-like immunoreactivity in the rat parathyroid gland

Summary A phenylethanolamine N-methyltransferase-(PNMT)-immunoreactivity, present without the other catecholamine-synthesizing enzymes tyrosine hydroxylase (TH) and dopamine--hydroxylase (DBH), has been previously detected in the central nervous system and in endocrine cells of the islets of Langerhans and the pituitary intermediate lobe of the rat. In the present study a similar PNMT-like immunoreactivity is demonstrated in the rat parathyroid gland. The immunoreactivity was distinctly localized to the cell periphery, and present in all glandular cells. The thyroid gland was negative. In the parathyroid TH- and DBH-immunoreactivity was seen only in vascular nerve fibers; no glandular cells were stained.The functional significance of the PNMT-like immunoreactivity is not known. The absence of TH- and DBH-immunoreactivity and the low level of adrenaline detected in the parathyroid, and the peripheral localization of the immunoreactivity may indicate an alternative enzyme function or the detection of an immunologically related protein common to pancreatic, pituitary and parathyroid endocrine cells.     

Fine structure of the fetal rat thyroid and parathyroid glands at term and during prolonged gestation

Summary The fine structure of the fetal rat thyroid and parathyroid glands was studied at term and during prolonged gestation, which was induced by subcutaneous injections of progesterone to the mothers from gestational days 20 through 24. At term, the follicular and parafollicular cells of the thyroid as well as cells of the parathyroid exhibited well developed cytoplasmic organelles. Morphological changes were not detected in either of the endocrine glands during prolonged gestation. The results are discussed in relationship to 1) thyroid follicular cell activity during stress and 2) the function of thyroid parafollicular and parathyroid cells in calcium homeostasis.Supported by the Medical Research Council of Canada Grant No. MA4740.     

Abnormal calcium distribution in human parathyroid adenomas as possible cause of primary hyperparathyroidism

Current knowledge suggests that normal parathyroid glands and parathyroid adenomas have different sensitivities to environmental calcium. In search for morphological equivalents, 5 normal human and 10 porcine parathyroid glands, as well as 10 human parathyroid adenomas were investigated with regard to intracellular and extracellular calcium distribution. The glands were incubated for 2, 4, 6 and 20 h in tissue cultures using HAM's F10 medium with various calcium concentrations. For visualization of the calcium distribution in the tissue the method of pyroantimonate precipitation was applied. Specificity of the reaction was controlled by X-ray microanalysis. Shifts of the calcium pyroantimonate precipitates were quantitated by morphometry using an area-counting system. The results demonstrate that in normal parathyroid glands calcium precipitates are distributed randomly. Incubation of normal glands in medium with low calcium concentration (0.6 mM) provoked reduced amounts of intracellular and extracellular calcium complexes. When the incubations were performed in medium with high calcium content (2.6 mM), calcium accumulated inside parathyroid and stroma cells. In contrast to normal parathyroid glands, parathyroid adenomas fixed immediately after surgery showed an atypical calcium distribution with low amounts of intracellular and high amounts of extracellular calcium grains. The data suggest that in normal parathyroid glands the intracellular calcium concentration follows the extracellular environmental calcium concentration. Thus, calcium modulates parathyroid hormone (PTH) secretion via intracellular regulatory mechanisms. In parathyroid adenomas the calcium transport via the tumor cell membrane appears to be disturbed resulting in lowered intracellular calcium levels. This is remarkable since the environmental calcium concentration is elevated due to the hypercalcemia of primary hyperparathyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)     

Quantitative characteristics of the endocrine cells of the duodenal glands of Carnivora

In the duodenal glands of the Carnivora investigated endocrine elements have been revealed, a part of them is presented as serotonin-producing EC-cells. Endocrine cells are situated in terminal parts and in glandular ducts, among them elements of open and close types are distinguished. Distribution of these cells in the glandular lobules is subjected to the distal gradient regularity, specific for the gastrointestinal tract mucosal membrane. Amount of endocrinocytes in the glands is much less than in the gut crypts. There is no correlation between distribution of the endocrine cells in the glands and in the crypts. The results of unifactor analysis of variance demonstrate a slight effect of the taxonomic position of the species on the number of endocrine cells in the duodenal glands. The proper endocrine apparatus of the duodenal glands is supposed to produce a local regulatory influence on the secretory activity of exogenic glandulocytes, as well as ensure humoral connections of the duodenal glands with other parts of the gastrointestinal tract.     

Annular nucleolus in Leydig cells of mouse

Summary Parathyroid glands of winter frogs (Rana pipiens) were compared by light and electron microscopy with those of winter frogs homoimplanted with pituitary glands. Serum calcium levels of untreated and pituitary-implanted animals were compared also. Forty-eight hours after pituitary implantation, serum calcium is elevated from a mean winter value of 6.2 mg % to 9.3 mg % and, morphologically, the parathyroid gland appears to be stimulated with respect to secretory activity. Compared with parathyroids of untreated winter frogs, intercellular spaces are diminished after pituitary implantation and glandular parenchyma is composed of cells with closely apposed plasma membranes thrown into interdigitating folds. Dense core vesicles are present in the cytoplasm and, together with microtubules, are encountered near plasma membranes. Golgi lamellae contain electron dense material and exhibit budding of dense core vesicles. Neither myelinated multivesicular bodies, presumably cytolysosomes degrading unneeded parathormone and organelles, nor focal dilatations with myelination of Golgi lamellae are encountered in parathyroid cells of pituitary implanted frogs. Rough endoplasmic reticulum and mitochondria do not undergo marked changes in distribution or abundance after pituitary implantation, indicating that the synthetic aspects of the secretory process are little altered in untreated and treated animals. It is suggested that in addition to Ca⁺⁺ a pituitary factor is involved in the seasonal changes in amphibian parathyroid structure and function.The authors wishes to thank Mrs. Mary Lee, Mr. Johnny Sandifer and Mr. M. G. Barker for expert technical assistance. This work was supported by the 1972 South Carolina State Appropriation for Research.     

Single‐cell functional analysis of parathyroid adenomas reveals distinct classes of calcium sensing behaviour in primary hyperparathyroidism

Primary hyperparathyroidism (PHPT) is a common endocrine neoplastic disorder caused by a failure of calcium sensing secondary to tumour development in one or more of the parathyroid glands. Parathyroid adenomas are comprised of distinct cellular subpopulations of variable clonal status that exhibit differing degrees of calcium responsiveness. To gain a clearer understanding of the relationship among cellular identity, tumour composition and clinical biochemistry in PHPT, we developed a novel single cell platform for quantitative evaluation of calcium sensing behaviour in freshly resected human parathyroid tumour cells. Live‐cell intracellular calcium flux was visualized through Fluo‐4‐AM epifluorescence, followed by in situ immunofluorescence detection of the calcium sensing receptor (CASR), a central component in the extracellular calcium signalling pathway. The reactivity of individual parathyroid tumour cells to extracellular calcium stimulus was highly variable, with discrete kinetic response patterns observed both between and among parathyroid tumour samples. CASR abundance was not an obligate determinant of calcium responsiveness. Calcium EC50 values from a series of parathyroid adenomas revealed that the tumours segregated into two distinct categories. One group manifested a mean EC50 of 2.40 mM (95% CI: 2.37–2.41), closely aligned to the established normal range. The second group was less responsive to calcium stimulus, with a mean EC50 of 3.61 mM (95% CI: 3.45–3.95). This binary distribution indicates the existence of a previously unappreciated biochemical sub‐classification of PHPT tumours, possibly reflecting distinct etiological mechanisms. Recognition of quantitative differences in calcium sensing could have important implications for the clinical management of PHPT.     

Ultrastructural characteristics of endocrine and glandular gastric cells

Electron microscopy of human gastric mucosa has demonstrated that the endocrine cells are closely and specifically related to the adjacent glandular cells and the basal membrane. Cytoplasmic strands of the adjacent cells surround the endocrine cells and their projections, probably, regulating their secretion. The above outlined relations are considered a structural basis for complex regulatory endocrine and paracrine functions of the gastric endocrine cells.     

Bone and the kidney: a systems biology approach to the molecular mechanisms of renal osteodystrophy

Despite its apparent static condition, the skeleton undergoes a permanent process of remodeling mediated by osteoblasts and osteoclasts. The activity of these cells is regulated by a plethora of factors, ranging from mechanical stress to the effects of hormones to the immune system. One well-studied regulatory system involves the maintenance of calcium homeostasis through a network whose main regulatory components include ionized calcium, phosphate, parathyroid hormone and active vitamin D. This system establishes the link between bone and kidney, as one of the kidney's endocrine functions is the activation of vitamin D, while electrolyte homeostasis is one of its excretory functions. Impaired renal function leads to disturbances in this regulatory system, resulting in the complex syndrome of renal osteodystrophy that affects the majority of patients with chronic renal failure. This review summarizes the current understanding of bone physiology on a molecular level, examines some of the pathological pathways related to renal disease, and concludes with an outlook on how the emerging field of systems biology may contribute to a more dynamic and quantitative understanding of the physiology and pathophysiology of renal bone disease.     

Induction of metabolic changes and down regulation of bovine parathyroid hormone-responsive adenylate cyclase are dissociable in isolated osteoclastic and osteoblastic bone cells.

Bovine parathyroid hormone (PTH), dibutyryl cAMP, and calcium each induce similar metabolic changes in isolated bone cells. PTH and calcium, but not dibutyryl cAMP, result in desensitization of osteoclastic and osteoblastic bone cells to PTH. In osteoblastic cells, calcium effects are specific for PTH receptor.adenylate cyclase complexes and responsiveness to other hormones is not reduced while in osteoclastic cells, small effects of high calcium on prostaglandin E1- and epinephrine-inducible cAMP accompany the large decreases seen in cAMP response to PTH. The membrane effects of calcium and of PTH appear to be independently regulated as PTH-induced desensitization can be initiated in the absence of calcium. In addition, calcium effects on PTH-sensitive adenylate cyclase follow a different calcium dose-response than PTH-like metabolic changes. These results suggest that the effect of calcium on the membrane is not directly related to its induction of PTH-like metabolic changes. A possible role of calcium as an in vivo regulator of bone cell sensitivity to PTH is discussed.     

The calcium endocrine system of adolescent rhesus monkeys and controls before and after spaceflight

The calcium endocrine system of nonhuman primates can be influenced by chairing for safety and the weightless environment of spaceflight. The serum of two rhesus monkeys flown on the Bion 11 mission was assayed pre- and postflight for vitamin D metabolites, parathyroid hormone, calcitonin, parameters of calcium homeostasis, cortisol, and indexes of renal function. Results were compared with the same measures from five monkeys before and after chairing for a flight simulation study. Concentrations of 1,25-dihydroxyvitamin D were 72% lower after the flight than before, and more than after chairing on the ground (57%, P < 0.05). Decreases in parathyroid hormone did not reach significance. Calcitonin showed modest decreases postflight (P < 0.02). Overall, effects of spaceflight on the calcium endocrine system were similar to the effects of chairing on the ground, but were more pronounced. Reduced intestinal calcium absorption, losses in body weight, increases in cortisol, and higher postflight blood urea nitrogen were the changes in flight monkeys that distinguished them from the flight simulation study animals.     

Acidic fibroblast growth factor autocrine system as a mediator of calcium-regulated parathyroid cell growth.

Both parathyroid hormone secretion and cell growth are negatively regulated by extracellular calcium in parathyroid cells. The mechanism of growth regulation by calcium has been unknown. Previously, we reported that clonal parathyroid cells (PT-r cells) bear two high affinity receptors for acidic fibroblast growth factor (aFGF) and that at least a subpopulation of the receptors with a higher molecular mass carries heparan sulfate (HS) glycosaminoglycan chains which give the receptor higher affinity (Sakaguchi, K., Yanagishita, M., Takeuchi, Y., and Aurbach, G. D. (1991) J. Biol. Chem. 266, 7270-7278). Here, I have found that the parathyroid cells expressed aFGF and that aFGF receptors with lower affinity apparently translocated in response to changing extracellular calcium concentrations. Expression of both aFGF mRNA and peptide was suppressed by calcium. Cells had more ligand-accessible receptors on the cell surface at lower calcium concentrations. This apparent translocation was temperature-dependent but independent of de novo protein synthesis. Heparin or HS glycosaminoglycans are a prerequisite for the FGF receptor encoded by flg gene to bind basic FGF (Yayon, A., Klagsbrun, M., Esko, J. D., Leder, P., and Ornitz, D. M. (1991) Cell 64, 841-848). In PT-r cells, major cellular HS proteoglycans redistribute between intracellular and extracellular compartments with more HS proteoglycans expressed on the cell surface at lower calcium concentrations (Takeuchi, Y., Sakaguchi, K., Yanagishita, M., Aurbach, G. D., and Hascall, V. C. (1990) J. Biol. Chem. 265, 13661-13668). However, this redistribution of HS proteoglycans cannot explain the difference in bindability of radiolabeled aFGF to its receptors in different calcium concentrations, since addition of heparin did not change the binding of radiolabeled aFGF to the receptors either at high or low calcium conditions. In concordance with the apparent translocation of aFGF receptors, thymidine incorporation was stimulated by decreasing extracellular calcium concentrations with further stimulation by added aFGF. Anti-aFGF antibody inhibited thymidine incorporation by more than 32% in the cells exposed to 0.05 mM Ca2+ shortly before adding [3H]thymidine, whereas the incorporation was not significantly affected by the antibody at 0.7 mM Ca2+. Cell growth was also stimulated by low calcium. Anti-aFGF antibody inhibited cell growth significantly only at low calcium concentrations. From these observations, an aFGF autocrine system including the apparent translocation of aFGF receptors may explain, if not entirely, the mechanism by which calcium regulates parathyroid cell growth.     

Neurotensin is a regulator of insulin secretion in pancreatic beta-cells

Neurotensin (NT) is secreted from neurons and gastrointestinal endocrine cells. We previously reported that the three NT receptors (NTSRs) are expressed in pancreatic islets and beta cell lines on which we observed a protective effect of NT against cytotoxic agents. In this study, we explored the role of NT on insulin secretion in the endocrine pancreatic beta cells. We observed that NT stimulates insulin secretion at low glucose level and has a small inhibiting effect on stimulated insulin secretion from isolated islets or INS-1E cells. We studied the mechanisms by which NT elicited calcium concentration changes using fura-2 loaded islets or INS-1E cells. NT increases calcium influx through the opening of cationic channels. Similar calcium influxes were observed after treatment with NTSR selective ligands. NT-evoked calcium regulation involves PKC and the translocation of PKCα and PKC? to the plasma membrane. Part of NT effects appears to be also mediated by PKA but not via the Erk pathway. Taken together, these data provide evidence for an important endocrine role of NT in the regulation of the secretory function of beta cells.     

Morphology of thyroid C-cells and parathyroid glands in summer-active little brown bats, Myotis lucifugus lucifugus, with particular reference to pregnancy and lactation

Morphological studies of thyroid C-cells and morphometric analyses of parathyroid glands in summer-active little brown bats indicated concomitant regulatory endocrine functions correlating with bone remodeling. C-cells apparently maintain maximal activity throughout the summer-active period in all bats. However, the hyperactivity of the parathyroid glands in summer-active female bats can be correlated with the maintenance of plasma calcium concentrations during lactation, when the female skeleton undergoes a period of bone demineralization. In summer-active male bats, which did not lose bone, the parathyroid glands did not show morphological evidence of hyperactivity; instead they were found to exhibit moderate parathyroid activity.     

Presence of chromogranin A, B and C in bovine endocrine and nervous tissues: a comparative immunohistochemical study

Summary Antisera against chromogranin A, B and C were used to study the distribution of these acidic proteins in bovine endocrine and nervous tissues. The three chromogranins occur together in several endocrine organs (adrenal medulla, anterior pituitary, endocrine pancreas) and in sympathetic ganglion cells. In the posterior pituitary, only chromogranin C and in the intermediate lobe only A and C are found. The parathyroid gland contains only A, and enterochromaffin cells are immunoreactive for A and B. Cells of the thyroid gland and some cells of the anterior pituitary apparently do not contain any chromogranins. It is concluded that the three chromogranins are not always stored together and that they are not present in all endocrine cells. This distinct localization of the chromogranins indicates some special, although still undiscovered, function for these proteins.     

Do parathyroid glands from individuals of different age and gender contain lymph vessels?

Whereas lymph vessels in some endocrine glands have been thoroughly investigated, data on these vessels in human parathyroid glands are often contradictory and deficient in available literature. Therefore, the aim of this study was to histomorphologically investigate whether lymph vessels could be found in human parathyroid glands postnatally and, if so, whether their presence was age- and gender-dependent. A total of 44 parathyroid glands from subjects of both genders, aged 4-90 years, were studied. The glands were divided into three groups. Those from the 1st and the 2nd age group demonstrated similar morphological structure of parenchyma with predominant chief cells with pale-staining cytoplasm, while the frequency of lymph vessels was lower in the 2nd group. Unlike in these groups, chief cells with dark- staining cytoplasm predominated in the glandular parenchyma of the 3rd age group where lymph vessels were not found in any of the examined glands. The frequency of lymph vessels in parathyroid glands was almost the same for both genders. Histomorphologic occurrence of lymph vessels coincided with the presence of endocrine cells with pale-staining cytoplasm, which allowed the assumption that lymph vessels were also one of the signs of functional activity of human parathyroid glands.     

E-cadherins identified in osteoblastic cells: Effects of parathyroid hormone and extracellular calcium on localization

The presence and regulation of cadherin localization in osteoblastic cells were examined. Monoclonal antibody (ECCD-1) that interferes with E-cadherin function prevented cell adhesion in UMR 106-H5 rat osteosarcoma cells and non-tumorigenic mouse calvarial MC3T3-E1 cells, whereas CCL39 fibroblast adhesion was not affected. Immunofluorescent antibodies (ECCD-2 and polyclonal L-CAM P1) revealed cadherins are localized along the osteoblastic cell-cell boundaries. Exposure of UMR 106-H5 cells to bovine parathyroid hormone (1–84) (PTH; 10 ng/ml × 1 hr) or low calcium medium (1.0 – 0.025 Mn) produced cellular retraction accompanied by intense immunofluorescence for cadherins throughout cells with a corresponding loss of punctate localization at remaining cell-cell adhesion points. Western immunoblot analysis indicated 108 kd and 115 kd cadherins are present, with a smaller 29.5 kd band that became predominantly associated with the cytosolic fraction of cells treated with parathyroid hormone or lowered calcium. The results demonstrate E-like cadherins are present in osteoblastic cells and implicate a regulatory role for parathyroid hormone and calcium in cadherin function and localization.     

Effect of a low calcium diet on the ultrastructure of the parathyroid gland of chicks

Summary The effect of a low calcium diet on the ultrastructure of the parathyroid gland in the chick was examined. Two-week-old White Leghorn chicks were fed a low calcium diet (calcium content 0.63%) for two weeks. In these chicks, the parathyroid glands are grossly enlarged. Hypertrophy and hyperplasia of the chief cells are evident. The plasma membranes between adjacent cells are relatively straight but interdigitate in some places. Chief cells contain occasional membrane-limited secretory granules (150–350 m in diameter) and with contents of variable electron density. Secretory granules are distributed randomly but some are closely applied to the plasma membrane. There is an increase in the development of the rough-surfaced endoplasmic reticulum. The Golgi complex is enlarged and consists of cisternae arranged in concentric layers, smooth-surfaced and coated vesicles and condensing vacuoles. Dilatations of the cisternae at several points are observed. Mitochondria and filaments are also encountered. These morphological features suggest that low calcium intake stimulates the synthetic activity of the chief cells of the chick parathyroid.     

Parathyroid hormone-induced changes of the brush border topography and cytoskeleton in cultured renal proximal tubular cells

Summary In order to examine the possibility of parathyroid hormone-mediated ultrastructural rearrangements in target epithelium, isolated canine renal proximal tubular cells were grown on a collagen-coated semipermeable membrane in a defined medium. Scanning and transmission electron microscopy of these monolayers revealed abundant microvilli. Exposure of the proximal tubular cells to parathyroid hormone resulted in a biphasic changes involving: (1) dramatic shortening and rarefaction of microvilli within 1 min; and (2) recovery of microvillar topography after 5 min. A similar shortening of microvilli was observed following exposure to ionomycin, whereas incubation with cyclic AMP resulted in an elongation of microvilli. Parathyroid hormone stimulated cyclic AMP production and increased cytoplasmic free calcium concentration in cultured proximal tubular cells. Pretreatment of cells with a calmodulin inhibitor abolished the effect of parathyroid hormone on brush border topography. Shortening of microvilli was associated with a disappearance of microvillar core filaments. Staining of F-actin with fluoresceinphalloidin showed that parathyroid hormone resulted in fragmentation of stress fibers. It is concluded that parathyroid hormoneinduced cell activation involves cytoplasmic-free calcium, calmodulin, and the cytoskeleton.     

Human kallikrein 13 expression in normal tissues: an immunohistochemical study.

The human tissue kallikrein 13 gene (KLK13), encoding for hK13 protein, was recently cloned and characterized. Here we describe the immunohistochemical (IHC) localization of hK13 in normal human tissues and compare it with the expression of two other kallikreins, hK6 and hK10. We performed the streptavidin-biotin IHC method on 204 paraffin blocks from archival, current, and autopsy material prepared from almost every normal human tissue, using a polyclonal and a monoclonal hK13 antibody. The staining was cytoplasmic and both antibodies yielded similar results. The hK13 protein was revealed in a variety of tissues, mainly in glandular epithelia. Other epithelia that expressed hK13 included the urothelium, the spermatic epithelium, and the epithelium of the choroid plexus. hK13 was intensely immunoexpressed by some endocrine organs, such as the adenohypophysis, the thyroid gland, the parathyroid glands, the adrenal medulla, the Leydig cells of the testis, and the cells of the endocrine pancreas. Immunoreactivity was also observed in the primordial follicles, the corpus luteum, and sparse luteinized cells in the stroma of the ovary, the trophoblastic cells of the placenta, the Hassall's corpuscles of the thymus, and chondrocytes. Nerves and ganglia of the peripheral nervous system, and both neurons and glial cells in the central nervous system, were positive. In short, hK13 was expressed by many glandular epithelia, some endocrine organs, and some specialized epithelia and cells. Comparison of these data with hK6 and hK10 expression suggests that the three kallikreins have a similar IHC pattern in normal human tissues.