Bryant Benson

Circadian rhythm in the number of granulated vesicles in the pinealocytes of mice

SummaryAdult, Charles River CD-1, male mice were housed in an environmental control chamber under strict conditions of controlled light (12D/12L) and temperature. The mice were sacrificed at various times throughout the twenty-four hour clock and their pineals prepared routinely for electron microscopy. The number of dense-cored or granulated vesicles present in the polar terminals of pinealocytes were quantitated in thin cross sections through pericapillary areas. A distinct circadian rhythm was observed in the number of granulated vesicles with a three- to four-fold difference between late photoperiod maximum and late dark period minimum. The rhythm was abolished by bilateral superior cervical ganglionectomy. These results are consistent with the hypothesis that the granulated vesicles are synthesized and stored in the pinealocytic cytoplasm during the photoperiod under the tropic influence of norepinephrine, and are released during the dark period when melatonin synthesis is greatest. Melatonin, administered as daily intraperitoneal doses of 50 μg over a period of five days, was observed to increase markedly the number of pinealocytic granulated vesicles during the light period, but led during the dark period to a decrease in their numbers to levels below that of diluent-treated controls. It may be that melatonin stimulates the synthesis and/or release of granulated vesicles which represent the packaged form of a major secretory product.

Hypothalamic site of action of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)

Administration of TCDD produced a significant decrease in the serum concentration of prolactin (PRL) detected in rats after 4 hr compared to pair-fed vehicle controls and noninjected controls. This effect of TCDD was reversed by pimozide, a dopamine receptor antagonist. These data suggest that TCDD decreased the release of PRL from the adenohypophysis either by a direct effect on the gland or by altering the dopamine concentration in the median eminence (ME). Concentrations of TCDD from 5 to 500 ng/ml had no direct effect on the ability of the adenohypophysis to secrete PRL in vitro. However, the dopamine concentration increased to 3.24 +/- 0.07 ng per ME in TCDD-treated rats compared to 2.81 +/- 0.08 ng in vehicle controls. This is a dramatic alteration in the dopamine concentration, since the dopamine is being measured in the portal circulation which exhibits a rapid turnover. The rate constant of dopamine depletion after alpha-methyl-p-tyrosine and the turnover rate were also significantly elevated in the ME of TCDD-treated rats. These data provide the first biochemical evidence for a hypothalamic site of action of TCDD. Since dopamine is inhibitory to PRL release from the adenohypophysis, increased ME steady-state concentrations and turnover of this catecholamine may be responsible for the decreased concentration of serum PRL detected within 4 hr of TCDD injection. Thus, one of the early modes and sites of action of TCDD is to elevate the dopaminergic activity of the tuberoinfundibular nucleus. A hypothalamic site of action for TCDD may result in a number of the endocrinological effects known to be produced by exposure to TCDD.

Partial maintenance of testes and accessory organs in blinded hamsters by homoplastic anterior pituitary grafts or exogenous prolactin

Abstract When blinded, golden Syrian hamsters undergo marked gonadal atrophy. This phenomenon is prevented by pinealectomy. The mechanisms involved in this pineal-mediated response were investigated through either the transplantation of pituitary homografts or treatment of blinded, male hamsters with exogenous prolactin. It was found that anterior pituitary homografts placed beneath the kidney capsule on the day of bilateral optic enucleation partially maintained testicular and accessory organ weights. Serum prolactin levels were reduced in blinded animals below that of intact controls. On the other hand, blinded hamsters bearing anterior pituitary homografts showed serum prolactin levels comparable to those of intact controls. In other experiments, the injection of either 3.2 or 6.4 I.U. of ovine prolactin/hamster/ day for a period up to seven weeks partially inhibited the atrophy of testes and accessory organ weights in blinded hamsters. These data suggest a possible role for prolactin in the pineal-mediated atrophic response to light deprivation.

Effects of blinding on the ultrastructure of mouse pinealocytes with particular emphasis on the dense-cored vesicles.

SummaryThe mammalian pineal is thought to produce an antigonadotropic principle under conditions of reduced photoperiod, constant darkness or blinding by optic enucleation. A number of previous studies on mammalian pineals have suggested that the dense-cored vesicles present in pinealocytes may represent morphological evidence of secretory activity.In the present study the ultrastructure of pinealocytes was studied in adult Charles River CD-1 mice blinded by optical enucleation. By one month following optic enucleation the mean number of dense-cored vesicles in the cytoplasm of pinealocytes adjacent to pericapillary spaces had significantly decreased by 55% when compared with intact controls, and remained at this low level at two months and six months. A relative increase in the proportion of large agranular vesicles and an increased number of large, irregular vacuoles was observed also in the pinealocytic polar processes of blinded mice. When compared to control mice the pinealocytic Golgi regions appeared to be hypertrophied in blinded mice. The apparent stimulation of pinealocytic organelles coupled with the observed decrease in dense-cored vesicles suggest an increased synthesis and release of secretory product.

Differential localization of antigonadotropic and vasotocic activities in bovine and rat pineal.

Abstract Bovine pineal glands were separated into stalk and parenchymal portions and extracted separately for both pineal antigonadotropic and neurohypophysial activities. Bioassay of these extracts localized neurohypophysial hormone activity to the stalk and antigonadotropic activity to the pineal parenchyma. Destalked rat pineals were devoid of neurohypophysial hormone activity at the concentrations employed. Whereas the injection of purified extracts containing pineal antigonadotropin reduced ventral prostate weights in mice, vasotocin was without such actions. these results fail to support pineal (parenchymal) localization of vasotocin and a reproductive role for this neurohypophysial peptide.

Diurnal variation in norepinephrine-stimulated release of pineal serotonin in vitro

Adult, male rats were maintained under 12L∶12D with lights on at 06.00 h. Their pineal glands were incubated at 37‡C in the presence or absence of 10−4 M norepinephrine (NE). 5-HT and various metabolites were quantitated in post-incubation media and pineal glands by high performance liquid chromatography coupled with electrochemical detection. No differences were observed in the quantities of 5-HT released by pineal glands in four hour incubations starting at either 06.00, 13.00 or 18.00 h; however, a highly significant decrease below these levels was observed at 01.00 h. NE significantly stimulated 5-HT release at 13.00 and 18.00 h, but was ineffective at 01.00 and 06.00 h. These results confirm recently reported stimulatory effects of NE on the release of 5-HT into pineal gland incubation medium and further suggest a diurnal rhythm of pineal gland sensitivity to NE in vitro with maximum stimulation of 5-HT release at midphotophase.

Preliminary characterization of bovine pineal prolactin releasing (PPRF) and release-inhibiting factor (PPIF) activity

Bovine pineal glands were subjected to extraction with dilute acetic acid, gel filtration on Sephadex G-25 and subsequent ultrafiltration through Diaflo membranes PM10, UM2 and UM05. Various fractions derived at each step were tested for the presence of substances which stimulate or inhibit prolactin secretionin vitro andin vivo. Both prolactin releasing (PPRF) and release-inhibiting (PPIF) activities were observed. PPRF activity was present in certain fractions derived from Sephadex G-25 and in the PM10 residue (MW≃<10,000). Whereas both the UM2 residue (MW>1000) and UM05 filtrates (MW<500) was seen to inhibit pituitary prolactin releasein vitro, the UM05 residue (MW>500 and <1000) inhibited prolactin releasein vivo, possibly by stimulating the secretion of the hypothalamic prolactin inhibiting factor. On the basis of its inactivation by trypsin it was concluded that PPIF may be a peptide or contain a peptide moiety indispensible for its biological activity. Experiments are in progress to characterize pineal prolactin-regulating activities and to elucidate further the physiological role of the pineal gland in the regulation of prolactin secretion.

Chemical differences between bovine pineal antigonadotropin and arginine vasotocin

Abstract Studies were conducted in order to characterize chemically a partially purified antigonadotropic factor extracted from bovine pineal glands (PAG). Because several reports have appeared recently suggesting a role for arginine vasotocin (AVT) as a pineal antigonadotropin, our experiments were designed to determine the presence or absence of this nonapeptide in our material. A comparison of biologically active PAG and synthetic AVT revealed dissimilar UV absorption and fluorescence maxima, different mobilities on thin layer chromatography and paper electrophoresis, as well as different elution patterns on DEAE Sephadex ion-exchange chromatography. Amino acid analysis using 2 different methods revealed dissimilar amino acid compositions. On the basis of these and other chemical data, it is concluded that our preparations of PAG do not contain AVT.

Inhibition of compensatory renal growth by indomethacin

Renal prostaglandins may be important in the modulation of compensatory renal growth. Reductions in renal mass are associated with increased synthesis of these substances by the remaining kidney, and inhibition of prostaglandin synthesis diminishes renal function in partially nephrectomized animals and in patients with reduced functioning renal mass. We examined the effects of uninephrectomy and treatment with indomethacin on renal prostaglandin E2 and 6-keto prostaglandin F1 alpha concentrations in adult male Sprague Dawley rats. The renal content of these prostaglandins was significantly increased in the remaining kidney two days following uninephrectomy (p less than 0.01). Treatment with 5 mg/kg/day of indomethacin over this period abolished the compensatory increase in renal prostaglandin synthesis and significantly attenuated compensatory increases in renal mass, protein and RNA concentrations (p less than 0.05). No alterations in kidney weight, protein or RNA concentrations were found in intact animals treated with the same dose of indomethacin. These findings suggest renal prostaglandins may participate in the biological events leading to compensatory renal growth.

Dietary fish oil interferes with renal arachidonic acid metabolism in rats: Correlations with renal physiology

Dietary fish oil has been reported to have both beneficial and deleterious effects in animal models of renal disease, which may be related to alterations in renal eicosanoid metabolism. The influence of dietary fish oil on glomerular and renal tubular responses that are linked to arachidonic acid metabolism was examined. Dietary fish oil had antidiuretic and antinatriuretic effects, which correlated with reduced renal cortical endogenous prostaglandin E2 (PGE2). Fish oil altered the renal balance of dienoic prostacyclin (PGI2) to thromboxane (TXA2) in favor of vasodilation, which may explain the observed exaggerated compensatory increases in glomerular function in response to uninephrectomy. Intact rats fed fish oil for 6 months developed proteinuria and impaired glomerular filtration rates (GFR). These deleterious effects were associated with evidence of increased renal lipid peroxidation. These results suggest that dietary fish oil modifies glomerular and renal tubular function in rats, and worsens age-associated proteinuria and declines in GFR. These effects may reflect the impact of dietary fish oil on renal fatty acid composition and arachidonic acid metabolism.