Pharmacological targeting of histamine H4 receptor in periodontal disease.

OBJECTIVE: The objective of this study was to investigate whether histamine H4 receptor (H4 R) antagonists could prevent experimental periodontitis (EP)-induced histological, functional and inflammatory alterations in submandibular gland (SMG), periodontal bone and gingiva. METHODS: Bilateral EP was induced for 2 weeks in anaesthetized male rats. The effect of systemic and local administration of H4 R antagonists (JNJ7777120, JNJ10191584) on histopathology and functionality of SMG, bone loss and gingival inflammation was evaluated. RESULTS: The subcutaneous administration of JNJ7777120 prevented periodontitis-induced SMG histological injury, reducing vacuolization and apoptosis and additionally reversed the increased prostaglandin E2 (PGE2) levels in SMG while it partially reversed the methacholine-induced salivation reduction produced by periodontitis. JNJ7777120 attenuated bone loss and the increased PGE2 levels and inflammatory infiltration in gingival tissue of rats with periodontitis. Finally, local administration of JNJ7777120 and JNJ10191584 was also beneficial for improving periodontal parameters. CONCLUSIONS: H4 receptor antagonists are able to ameliorate periodontitis-induced injury on SMG, gingival tissue and bone structure, suggesting that pharmacological targeting of H4 R could be an attractive strategy to improve periodontal health.

Hiposialia por activación de receptores de cannabinoides en la glándula submaxilar: revisión / Hyposialia by cannabinoid receptors activation in the submandibular gland: a review

El presente trabajo aporta evidencia de la presencia de receptores de cannabinoides en la glándula submaxilar de la rata, cuya expresión secircunscribe a componentes acinares y ductales. A su vez, los resultados expuestos confirman la participación de los receptores de cannabinoides en el control de la secreción salival, y por ende aportan una explicación empírica a la hiposialia observada luego del consumo de marihuana

The present study provides evidence for the presence of cannabinoid receptors in rat submandibular gland, whose expression is restricted to acinar and ductal components. In turn, the presented results confirm the involvement of cannabinoid receptors in the control of salivary secretion, and thus provide an empirical explanation to hyposialia observed after marijuana consumption.

Endocannabinoids mediate hyposalivation induced by inflammogens in the submandibular glands and hypothalamus.

OBJECTIVE: The aim of this study was to investigate the factors that could participate on salivary glands hypofunction during inflammation and the participation of endocannabinoids in hyposalivation induced by the presence of inflammogens in the submandibular gland (SMG) or in the brain. DESIGN: Salivary secretion was assessed in the presence of inflammogens and/or the cannabinoid receptor antagonist AM251 in the SMG or in the brain of rats. At the end of the experiments, some systemic and glandular inflammatory markers were measured and histopathological analysis was performed. RESULTS: The inhibitory effect observed 1h after lipopolysaccharide (LPS, 50µg/50µl) injection into the SMG (ig) was completely prevented by the injection of AM251 (5µg/50µl) by the same route (P<0.05). The LPS (ig)-induced increase in PGE2 content was not altered by AM251 (ig), while the glandular production of TNFα induced by the endotoxin (P<0.001) was partially blocked by it. Also, LPS injection produced no significant changes in the wet weight of the SMG neither damage to lipid membranes of its cells, nor significant microscopic changes in them, after hispopathological analysis, compared to controls. Finally, TNFα (100ng/5µl) injected intracerebro-ventricularly (icv) inhibited methacholine-induced salivary secretion evaluated 30min after (P<0.01), but the previous injection of AM251 (500ng/5µl, icv) prevented completely that effect. CONCLUSION: We conclude that endocannabinoids mediate the hyposialia induced by inflammogens in the SMG and in the brain. The hypofunction would be due to changes on signalling pathway produced by inflammatory compounds since anatomical changes were not observed.

Radioprotective potential of histamine on rat small intestine and uterus.

The aim of this study was to improve knowledge about histamine radioprotective potential investigating its effect on reducing ionising radiation-induced injury and genotoxic damage on the rat small intestine and uterus. Forty 10-week-old male and 40 female Sprague-Dawley rats were divided into 4 groups. Histamine and histamine-5Gy groups received a daily subcutaneous histamine injection (0.1 mg/kg) starting 24 h before irradiation. Histamine-5Gy and untreated-5Gy groups were irradiated with a dose of whole-body Cesium-137 irradiation. Three days after irradiation animals were sacrificed and tissues were removed, fixed, and stained with haematoxylin and eosin, and histological characteristics were evaluated. Proliferation, apoptosis and oxidative DNA markers were studied by immunohistochemistry, while micronucleus assay was performed to evaluate chromosomal damage. Histamine treatment reduced radiation-induced mucosal atrophy, oedema and vascular damage produced by ionising radiation, increasing the number of crypts per circumference (239 ± 12 vs 160 ± 10; P<0.01). This effect was associated with a reduction of radiation-induced intestinal crypts apoptosis. Additionally, histamine decreased the frequency of micronuclei formation and also significantly attenuated 8-OHdG immunoreactivity, a marker of DNA oxidative damage. Furthermore, radiation induced flattening of the endometrial surface, depletion of deep glands and reduced mitosis, effects that were completely blocked by histamine treatment. The expression of a proliferation marker in uterine luminal and glandular cells was markedly stimulated in histamine treated and irradiated rats. The obtained evidences indicate that histamine is a potential candidate as a safe radioprotective agent that might increase the therapeutic index of radiotherapy for intra-abdominal and pelvic cancers. However, its efficacy needs to be carefully investigated in prospective clinical trials.

Anandamide injected into the lateral ventricle of the brain inhibits submandibular salivary secretion by attenuating parasympathetic neurotransmission

Our objective was to determine the effect of arachidonylethanolamide (anandamide, AEA) injected intracerebroventricularly (icv) into the lateral ventricle of the rat brain on submandibular gland (SMG) salivary secretion. Parasympathetic decentralization (PSD) produced by cutting the chorda tympani nerve strongly inhibited methacholine (MC)-induced salivary secretion while sympathetic denervation (SD) produced by removing the superior cervical ganglia reduced it slightly. Also, AEA (50 ng/5 µL, icv) significantly decreased MC-induced salivary secretion in intact rats (MC 1 µg/kg: control (C), 5.3 ± 0.6 vs AEA, 2.7 ± 0.6 mg; MC 3 µg/kg: C, 17.6 ± 1.0 vs AEA, 8.7 ± 0.9 mg; MC 10 µg/kg: C, 37.4 ± 1.2 vs AEA, 22.9 ± 2.6 mg). However, AEA did not alter the significantly reduced salivary secretion in rats with PSD, but decreased the slightly reduced salivary secretion in rats with SD (MC 1 µg/kg: C, 3.8 ± 0.8 vs AEA, 1.4 ± 0.6 mg; MC 3 µg/kg: C, 14.7 ± 2.4 vs AEA, 6.9 ± 1.2 mg; P < 0.05; MC 10 µg/kg: C, 39.5 ± 1.0 vs AEA, 22.3 ± 0.5 mg; P < 0.001). We showed that the inhibitory effect of AEA is mediated by cannabinoid type 1 CB1 receptors and involves GABAergic neurotransmission, since it was blocked by previous injection of the CB1 receptor antagonist AM251 (500 ng/5 µL, icv) or of the GABA A receptor antagonist, bicuculline (25 ng/5 µL, icv). Our results suggest that parasympathetic neurotransmission from the central nervous system to the SMG can be inhibited by endocannabinoid and GABAergic systems.

Anandamide injected into the lateral ventricle of the brain inhibits submandibular salivary secretion by attenuating parasympathetic neurotransmission.

Our objective was to determine the effect of arachidonylethanolamide (anandamide, AEA) injected intracerebroventricularly (icv) into the lateral ventricle of the rat brain on submandibular gland (SMG) salivary secretion. Parasympathetic decentralization (PSD) produced by cutting the chorda tympani nerve strongly inhibited methacholine (MC)-induced salivary secretion while sympathetic denervation (SD) produced by removing the superior cervical ganglia reduced it slightly. Also, AEA (50 ng/5 microL, icv) significantly decreased MC-induced salivary secretion in intact rats (MC 1 microg/kg: control (C), 5.3 +/- 0.6 vs AEA, 2.7 +/- 0.6 mg; MC 3 microg/kg: C, 17.6 +/- 1.0 vs AEA, 8.7 +/- 0.9 mg; MC 10 microg/kg: C, 37.4 +/- 1.2 vs AEA, 22.9 +/- 2.6 mg). However, AEA did not alter the significantly reduced salivary secretion in rats with PSD, but decreased the slightly reduced salivary secretion in rats with SD (MC 1 microg/kg: C, 3.8 +/- 0.8 vs AEA, 1.4 +/- 0.6 mg; MC 3 microg/kg: C, 14.7 +/- 2.4 vs AEA, 6.9 +/- 1.2 mg; P < 0.05; MC 10 microg/kg: C, 39.5 +/- 1.0 vs AEA, 22.3 +/- 0.5 mg; P < 0.001). We showed that the inhibitory effect of AEA is mediated by cannabinoid type 1 CB1 receptors and involves GABAergic neurotransmission, since it was blocked by previous injection of the CB1 receptor antagonist AM251 (500 ng/5 microL, icv) or of the GABA A receptor antagonist, bicuculline (25 ng/5 microL, icv). Our results suggest that parasympathetic neurotransmission from the central nervous system to the SMG can be inhibited by endocannabinoid and GABAergic systems.

Leptin modulates the expression of its receptors in the hypothalamic-pituitary-ovarian axis in a differential way.

To investigate the expression of leptin receptors (Ob-R) in the rat hypothalamus-pituitary-ovarian axis, immature rats were treated with eCG/hCG and Ob-R expression was evaluated by western blot analysis. The Ob-R expression increased 24 h after eCG administration in all the tissues assayed. In the hypothalamus, these levels immediately decreased to those obtained without treatment. In the pituitary, the Ob-R expression continued to be elevated 48 h after eCG administration, whereas the hCG injection did not modify these levels. Similar results were obtained with the ovarian long isoform. To assess the effect of leptin on its receptors, Ob-R was assessed in hypothalamus, pituitary and ovarian explants cultured in the presence or absence of leptin (0.3-500 ng/ml). In the hypothalamus, we found a biphasic effect: the Ob-R expression was either reduced or increased at low or high concentrations of leptin respectively. LH-releasing hormone secretion increased at 1 ng/ml. In the pituitary, Ob-R increased at 10 or 30 ng/ml of leptin for the long and short isoforms respectively. Leptin also induced an increase in LH release at 30 ng/ml. In the ovarian culture, the presence of leptin produced an increase in Ob-R expression at different ranges of concentrations and a dose-dependent biphasic effect on the progesterone production. In conclusion, all these results clearly suggest that leptin is able to modulate the expression of its own receptors in the reproductive axis in a differential way. Moreover, the positive or negative effect that leptin exerts on the ovulatory process may be dependent on this regulation.

[Functional alterations in central nervous system of prehepatic portal hypertensive rats]. / Cambios funcionales en el sistema nervioso central de ratas hipertensas portales prehepaticas.

Prehepatic Portal Hypertension (PH) leads to morphologic changes in the rat Central Nervous System, including alterations of the blood brain barrier (BBB), and astrogliosis and angiogenesis in CA1 and CA4 hyppocampal fields. The present study investigates functional changes in portal hypertensive rats. Wistar Kyoto rats were used (240 g/bw) and allotted in two groups: GI (n = 8) portal hypertensive rats obtained through a regulated stenosis of the portal vein (Groszmann), and GII (n = 6), sham-operated rats. We have analyzed: BBB integrity with the Trypan Blue diffusion method (TB, Reynolds), protein concentration (PC) in Cerebrospinal Fluid (CSF) and plasma (Bradford method), electroencephalographic activity (EEG), cerebral edema expressed as brain water content (gravidimetric test), and behavior: Animex, righting reflex, pain reflex and Rotarod. TB was positive in GI in peripheral vascular areas in hippocampus, PC in CSF (ug/ml)(mean +/- SED) was GI: 40.6 +/- 6.8 and GII: 16.5 +/- 4.2 (p < 0.005), and the plasma levels were (mg/ml): GI: 108.8 +/- 7.6 and GII: 87.4 +/- 2 (NS). The EEG showed a higher power of the delta band in hypertensive rats (GI: 0.551 +/- 0.033 and GII: 0.342 +/- 0.031, p < 0.008), but water content was not different between GI and GII (water%/per/g/tissue) (GI: 79.21 +/- 0.2, GII: 78.95 +/- 0.18). These results, showing functional changes in the BBB and brain activity without behavioral alterations, suggest the development of a subclinic form of hepatic encephalopathy in our model of PH rats.

Cambios funcionales en el sistema nervioso central de ratas hipertensas portales prehepaticas. / [Functional alterations in central nervous system of prehepatic portal hypertensive rats]

Prehepatic Portal Hypertension (PH) leads to morphologic changes in the rat Central Nervous System, including alterations of the blood brain barrier (BBB), and astrogliosis and angiogenesis in CA1 and CA4 hyppocampal fields. The present study investigates functional changes in portal hypertensive rats. Wistar Kyoto rats were used (240 g/bw) and allotted in two groups: GI (n = 8) portal hypertensive rats obtained through a regulated stenosis of the portal vein (Groszmann), and GII (n = 6), sham-operated rats. We have analyzed: BBB integrity with the Trypan Blue diffusion method (TB, Reynolds), protein concentration (PC) in Cerebrospinal Fluid (CSF) and plasma (Bradford method), electroencephalographic activity (EEG), cerebral edema expressed as brain water content (gravidimetric test), and behavior: Animex, righting reflex, pain reflex and Rotarod. TB was positive in GI in peripheral vascular areas in hippocampus, PC in CSF (ug/ml)(mean +/- SED) was GI: 40.6 +/- 6.8 and GII: 16.5 +/- 4.2 (p < 0.005), and the plasma levels were (mg/ml): GI: 108.8 +/- 7.6 and GII: 87.4 +/- 2 (NS). The EEG showed a higher power of the delta band in hypertensive rats (GI: 0.551 +/- 0.033 and GII: 0.342 +/- 0.031, p < 0.008), but water content was not different between GI and GII (water

/per/g/tissue) (GI: 79.21 +/- 0.2, GII: 78.95 +/- 0.18). These results, showing functional changes in the BBB and brain activity without behavioral alterations, suggest the development of a subclinic form of hepatic encephalopathy in our model of PH rats.