Effects of alloxan diabetes and insulin in vivo on rat parotid gland

Parotid gland growth and secretory enzyme levels were studied in male Sprague-Dawley rats following the induction of alloxan diabetes. Diabetes resulted in a retardation of parotid gland, as well as body growth, and in a reduction of parotid gland DNA, RNA, and total protein compared with control rats. Morphologically, parotid glands of diabetic animals were characterized by an intracellular accumulation of lipid within acinar and intercalated ductal cells. Parotid amylase was reduced 40% in diabetic rats compared with control rats. In contrast, peroxidase levels increased by 54%, and DNase was unaffected. Insulin treatment of diabetic rats led to a restoration of gland and body growth. Parotid gland DNA, RNA, total protein, and secretory enzyme levels returned to control values within 7 days. Thus, insulin in vivo may play a major role in the regulation of parotid gland growth and function.     

Effects of continuous light on rat parotid gland structure and reactivity

Summary The effects of continuous light on ultrastructural organization and sympathetic secretory responses of the rat parotid gland are reported.After 50 days of continuous light exposure, the fine structure of the parotid gland exhibited features of enhanced secretory activity as judged by the striking development of rough endoplasmic reticulum and Golgi complexes, the depletion of secretory granules and the increased turnover of secretory cells. The secretory responses of parotid gland to isoproterenol revealed that continuous light induced a 30% increase in amylase release. This secretory hyperactivity appears to be related to a postsynaptic supersensitivity of sympathetic fibers of the autonomic nervous system.     

Effects of streptozotocin-induced diabetes on taste buds in rat vallate papillae

Some studies have documented taste changes in patients with diabetes mellitus (DM). In order to understand the relationships between taste disorders caused by DM and the innervation and morphologic changes in the taste buds, we studied the vallate papillae and their taste buds in rats with DM. DM was induced in these rats with streptozotocin (STZ), which causes the death of beta cells of the pancreas. The rats were sacrificed and the vallate papillae were dissected for morphometric and quantitative immunohistochemical analyses. The innervations of the vallate papillae and taste buds in diabetic and control rats were detected using immunohistochemistry employing antibodies directed against protein gene product 9.5 (PGP 9.5) and calcitonin gene-related peptide (CGRP). The results showed that PGP 9.5- and CGRP-immunoreactive nerve fibers in the trench wall of diabetic vallate papillae, as well as taste cells in the taste buds, gradually decreased both intragemmally and intergemmally. The morphometry revealed no significant difference in papilla size between the control and diabetic groups, but there were fewer taste buds per papilla (per animal). The quantification of innervation in taste buds of the diabetic rats supported the visual assessment of immunohistochemical labeling, that the innervation of taste cells was significantly reduced in diabetic animals. These findings suggest that taste impairment in diabetic subjects may be caused by neuropathy defects and/or morphological changes in the taste buds.     

Regeneration of the parotid gland in the rat

Summary Parotid gland regeneration was studied in rats in which all of the left gland and part (50–60%) of the right had been removed. In young rats weighing 60–100 g, regeneration occurred in 19% of cases, as judged by the restoration of the weight of the organ. The weight of the glands did not always reach the initial level, however, and averaged 80% of the weight in control animals.The number of cases with gland regeneration increased in adult rats when the capsule was left open after the operation. Histological investigation showed that regeneration does not occur by growth starting at the injured surface, but rather by the proliferation of the secretory epithelium (regenerative hypertrophy) of the acini over the whole organ.(Presented by Active Member AMN SSSR V. V. Parin) Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 50, No. 10, pp. 113–118, October, 1960     

Dissociation of rat parotid gland.

Rat parotid gland was dissociated by sequential collagenase and hyaluronidase digestions, chelation with ethylenediaminetetraacetic acid, and mild shearing force to yield predominantly single cells. The isolated acinar cells retained their morphologic characteristics and their amylase activity. The functional integrity of the isolated cells was assessed by measuring their secretory response to isoproterenol, epinephrine, and carbamylcholine and by their ability to incorporate radioactively labeled leucine and thymidine. The discharge of amylase from the dissociated cells was not effected by isoproterenol or norepinephrine and the response to carbamylcholine was minimal. The data indicate a destruction or perturbation of hormone receptors during the dissociation procedure. The maintenance of the cells in culture for up to 18 hours failed to restore the responsiveness of the isolated parotid gland acinar cells to isoproterenol. The isolated cells incorporated 14C-leucine into proteins at a linear rate between 30 and 180 minutes. Chromatographic and electrophoretic profiles of newly synthesized proteins indicated that all major proteins synthesized in vivo were also synthesized by the isolated cells. The isolated cells incorporated tritiated thymidine into DNA. Furthermore, stimulation of DNA synthesis by isoproterenol in vivo was reflected by a higher rate of thymidine incorporation by the isolated cells as compared with controls. The dissociated parotid gland cells offer a convenient system for studying various cellular processes, particularly the synthesis of macromolecules with high specific activity. However, some functions, notably the response to beta- adrenergic agonists, are lost during the dissociation procedure.     

Histological analysis of the sublingual gland in rats with streptozotocin-induced diabetes

This study was designed to examine whether the sublingual gland parenchyma is influenced by the development of insulin-dependent diabetes mellitus. The sublingual glands of rats with streptozotocin-induced diabetes were examined by light and electron microscopy. In order to define the limiting membrane of mucous granules in more detail, samples processed by rapid freezing following by freeze-substitution in addition to chemical fixation were also prepared for electron microscopy. Light and electron microscopy showed vacuole-like structures considered to be lipid droplets in the cytoplasm of serous demilune cells, the largest reaching 4 microm in diameter. Electron microscopy of the chemically fixed samples revealed granule-like structures in addition to the mucous granules proper in the mucous cell cytoplasm. However, electron microscopy of the freeze-substitution fixed samples demonstrated no limiting membrane on the surface of the granule-like structures, although this was clearly observed on the surface of the mucous granules. Accordingly, the granule-like structures present in the mucous cell cytoplasm appeared to be lipid droplets. These findings suggest that the sublingual gland mucous cells become dysfunctional during the development of insulin-dependent diabetes mellitus, although to a slighter degree than the serous demilune cells.     

Effects of ammonium chloride on membrane currents of acinar cells dispersed from the rat parotid gland

In acinar cells freshly dispersed from rat parotid glands, the effects of ammonium chloride (NH₄Cl) on membrane currents were studied using the whole-cell clamp method. When membrane currents were recorded with command pulses to 0 mV, applied at 2-s intervals from a holding potential of –70 mV, NH₄Cl (5–20 mM) transiently decreased outward currents and then slowly increased both outward and inward currents. After reaching a peak in about 40–50 s, both outward and inward currents gradually decreased in the presence of NH₄Cl and, on its wash-out, the currents returned to the control level. Butyrate (5–20 mM) had little effect on the resting membrane currents, but markedly inhibited the response to NH₄Cl. Tetraethylammonium (5 mM) strongly reduced both the resting and NH₄Cl-induced outward currents, whereas it slightly potentiated the NH₄Cl-induced inward current without affecting the membrane current at the holding potential. Without ATP in the patch pipettes, carbachol-induced membrane currents were relatively resistant to Ca²⁺ removal from the external medium, but NH₄Cl-induced currents were quickly abolished in the absence of Ca²⁺. We conclude that intracellular alkalinization with NH₄Cl increases Ca²⁺ influx and activates Ca²⁺-dependent outward K⁺ and inward Cl^– currents.     

Neuropeptides and disuse of the rat parotid gland.

Rats were fed a liquid diet with the aim of decreasing nervous reflex activity in the parotid glands. In rats killed after 21 days on this diet the glands were atrophied and the total amounts of the neuropeptides, substance P, vasoactive intestinal peptide and calcitonin gene-related peptide, were lower than in control glands.     

Melatonin release by exocytosis in the rat parotid gland

Several beneficial effects on oral health are ascribed to melatonin. Due to its lipophilic nature, non‐protein‐bound circulating melatonin is usually thought to enter the saliva by passive diffusion through salivary acinar gland cells. Recently, however, using transmission electron microscopy (TEM), melatonin was found in acinar secretory granules of human salivary glands. To test the hypothesis that granular located melatonin is actively discharged into the saliva by exocytosis, i.e. contrary to the general belief, the β‐adrenergic receptor agonist isoprenaline, which causes the degranulation of acinar parotid serous cells, was administered to anaesthetised rats. Sixty minutes after an intravenous bolus injection of isoprenaline (5 mg kg^?1), the right parotid gland was removed; pre‐administration, the left control gland had been removed. Samples were processed to demonstrate melatonin reactivity using the immunogold staining method. Morphometric assessment was made using TEM. Gold particles labelling melatonin appeared to be preferentially associated with secretory granules, occurring in their matrix and at membrane level but, notably, it was also associated with vesicles, mitochondria and nuclei. Twenty‐six per cent of the total granular population (per 100 μm² per cell area) displayed melatonin labelling in the matrix; three‐quarters of this fraction disappeared (P < 0.01) in response to isoprenaline, and melatonin reactivity appeared in dilated lumina. Thus, evidence is provided of an alternative route for melatonin to reach the gland lumen and the oral cavity by active release through exocytosis, a process which is under the influence of parasympathetic and sympathetic nervous activity and is the final event along the so‐called regulated secretory pathway. During its stay in granules, anti‐oxidant melatonin may protect their protein/peptide constituents from damage.     

Differentiation of myoepithelial cells in the developing rat parotid gland

Parotid glands of rats were prepared for light and electron microscopy and for the histochemical demonstration of myofibrils and alkaline phosphatase (AkPase) activity. Through 18 days in utero, the epithelial cells of the developing gland remain relatively undifferentiated. At 20 days in utero, a few cells in the outer layer of the terminal buds and adjacent segments of ducts acquire a cilium, the initial indication that they are differentiating into myoepithelial cells (MEC). Up until the time of birth, the only additional characteristics of MEC that the outer cells develop are to flatten against the underlying cells, begin to send out processes, and produce a few dilated cisternae of rough endoplasmic reticulum. Myofibrils and AkPase activity are first detected at the light microscopic level at five days after birth, around both the developing acini and intercalated ducts. Progressive increases in AkPase activity and in the size and number of myofibrils continue until the acini and intercalated ducts are invested with well-differentiated MEC at 15 days. Subsequently, as the acini undergo maturation during the weaning period (18-25 days), the MEC cease to surround the acini and assume the adult pattern of investing only the intercalated ducts. The pattern of MEC differentiation in the parotid gland differs from those in the sublingual and submandibular glands of the rat in several important respects. They begin to differentiate last, yet mature almost as early as do the MEC of the sublingual gland; they begin to differentiate prior to, rather than simultaneously with, the secretory cells; and their distribution changes as the acinar cells become mature.     

Chronology of peroxidase activity in the developing rat parotid gland

The course of development of salivary peroxidase, an enzyme that has an important role in oral defense mechanisms, has been well documented in rat submandibular glands. However, the only report on salivary peroxidase activity in the other major salivary glands of the rat has been a cytochemical study of the adult parotid gland. In the present investigation, the accumulation of salivary peroxidase activity in developing parotid glands of rats was followed both biochemically and cytochemically. Specific activity (units per mg protein) attributable to salivary peroxidase began at 1 day after birth, then rose rapidly but unevenly, with peaks at 21 and 70 days, and no difference between the sexes at any age. Activity per gland increased progressively to 42 days in both sexes and was significantly higher in males at 70 days. The cytochemical observations on peroxidase activity localized to the rough endoplasmic reticulum and secretory granules of the developing acini were well correlated with the biochemical findings. Peroxidase-negative cells occurred in immature acini at 1 and 7 days, but only in the intercalated ducts thereafter. This observation suggests that the acini are a source of some of the ductal cells, at least during early postnatal development. The developmental pattern of specific activity differed from those of other rat parotid secretory enzymes, indicating that control of their synthesis during development is noncoordinate. The patterns of specific activity of the parotid and submandibular glands were complementary, suggesting that their combined secretions may supply biologically significant peroxidase activity to the oral cavities of rats throughout postnatal development. © 1993 Wiley-Liss, Inc.     

Characteristics of stimulated parotid gland secretion in the aging rat

The production of pilocarpine-stimulated parotid saliva was evaluated in young adult and aged male and female rats. Parotid salivary flow rate was about 50% lower in aged animals of both sexes. Saliva of aged animals had the same Na+ concentration as that of young rats but contained about 40% more protein. Salivary K+ concentration was similar in young and aged males but not females.     

N-linked protein glycosylation in the rat parotid gland during aging

N-Linked protein glycosylation was examined in vitro in dispersed rat parotid acinar cells from young adult (3-6 months) and aged (22-24 months) rats. A small decrease in general protein production was observed with cells from aged animals (approximately 20% lower incorporation of [14C]leucine into 10% CCl3 COOH insoluble protein during continuous pulse labeling). Incorporation of [3H]mannose into N-linked glycoproteins by aged cells was further reduced (approximately 35%). Similarly microsomal membranes from parotid glands of aged animals showed approximately 50% reduction in the synthesis of mannosylphosphoryl dolichol, a key intermediate in the dolichol pathway of protein N-glycosylation. Man-P-Dol synthase, the microsomal enzyme responsible for production of this saccharide-lipid, displayed no change in apparent Km for GDP-mannose when preparations from aged animals were utilized, but did show approximately 50% reduction in Vmax. Following beta-adrenoreceptor activation, cells from both young adult and aged glands showed increased N-linked protein glycosylation almost to the same extent (approximately 2-fold). The data suggested that in aged rat parotid cells there is a basal reduction of activity in the pathway responsible for asparagine-linked protein glycosylation, but that following exocytotic stimuli this pathway responds in a manner comparable to cells from young adult glands.     

Acinar degranulation in the rat parotid gland induced by neuropeptides

Vasoactive intestinal peptide (VIP, 4 microg kg(-1) min(-1)), substance P (3 microg kg(-1) min(-1)) and neurokinin A (2.5 microg kg(-1) min(-1)) were infused intravenously for 30 min in anaesthetized rats and the effects of these peptides on the parotid gland were examined. VIP reduced the numerical density of parotid acinar secretory granules, storing proteins, by 29 % and the glandular amylase activity by 33 %. Substance P reduced the number of secretory granules by 18 % but the amylase activity was unchanged. These results make VIP and substance P likely contributors to the parasympathetic non-adrenergic, non-cholinergic (NANC)-evoked parotid acinar degranulation. Neurokinin A, on the other hand, caused no reduction in granular number but reduced the glandular amylase activity by 19 %, indicating vesicular protein secretion.     

糖尿病在糖尿病大鼠心肌梗死后心力衰竭形成中的效应

目的： 评估糖尿病在链脲霉素（STZ）诱导的血糖不加控制的糖尿病大鼠急性心肌梗死（AMI）后心力衰竭(HF)形成中的效应。方法：所有SD大鼠随机分组,糖尿病组经腹腔内注射STZ（65mg/kg）诱导糖尿病,70 d后所有AMI组结扎冠状动脉左前降支建立AMI模型。确定AMI前后各时点观察大鼠的生存率,心肌超微结构的变化,进行血流动力学分析、心肌纤维化测定及左心肥厚的评估。结果：结扎左冠状动脉前降支后,糖尿病大鼠的左心功能恶化及左室重构的速度均较非糖尿病大鼠显著。在早期阶段,糖尿病与非糖尿病大鼠心肌纤维化相似,而1月后却出现显著差别。结论：糖尿病大鼠AMI后心力衰竭进展明显加速。     

Calcium homeostasis in chronic streptozotocin-induced diabetes mellitus in the rat

Calcium homeostasis was studied in freely fed control, streptozotocin diabetic, long-term and short-term insulin-treated diabetic rats 7 wk after the induction of diabetes. In contrast to the short-term (5-12 day) diabetic rat model, intestinal absorption of calcium was markedly enhanced in chronically insulin-deficient animals. Moreover, conventional balance studies showed that these animals were in positive calcium balance despite severe hypercalciuria. Intestinal hyperabsorption of calcium in long-standing diabetic rats occurred despite low levels of circulating 1,25-dihydroxyvitamin D and hypercorticosteronism and was attended by hypercalcemia and suppression of both plasma parathyroid hormone (PTH) and urinary cyclic 3',5'-AMP (cAMP). Long-term insulin replacement completely normalized the intestinal hyperabsorption of calcium, corrected the plasma calcium, and significantly increased circulating PTH and urinary cAMP excretion. Insulin therapy also corrected the decreased plasma 1,25-dihydroxyvitamin D observed in untreated diabetic animals. Intestinal hyperabsorption of calcium appeared to be only partially corrected by short-term insulin therapy. The accumulated results reveal decided differences in calcium homeostasis and hormonal response between the rats with long-standing diabetes and those with diabetes of short duration.     

X-ray microanalysis of the rat parotid gland after chronic sympathectomimetic stimulation

The effects of chronic treatment with isoproterenol, reserpine, prenalterol, and terbutaline on rat parotid gland were investigated by electron microscopy and X-ray microanalysis. Chronic isoproterenol treatment induced lower potassium and calcium concentrations in the acinar cells. The cells were enlarged and contained more and larger zymogen granules than acinar cells in the controls. The zymogen granules contained markedly less sulfur, potassium, and calcium than in control animals. Prenalterol had effects similar to those of isoproterenol, but less pronounced, whereas terbutaline had no significant effects. Chronic treatment with reserpine caused a decrease in calcium levels but did not affect potassium levels. The changes in elemental composition in parotid acinar cells after chronic treatment with isoproterenol and reserpine differed from those induced by the same treatment in the submandibular gland of the rat.