about
Characterization of chemically induced ovarian carcinomas in an ethanol-preferring rat model: influence of long-term melatonin treatmentMelatonin Reduces Angiogenesis in Serous Papillary Ovarian Carcinoma of Ethanol-Preferring RatsMelatonin Attenuates Her-2, p38 MAPK, p-AKT, and mTOR Levels in Ovarian Carcinoma of Ethanol-Preferring RatsMelatonin attenuates the TLR4-mediated inflammatory response through MyD88- and TRIF-dependent signaling pathways in an in vivo model of ovarian cancerMelatonin reduces LH, 17 beta-estradiol and induces differential regulation of sex steroid receptors in reproductive tissues during rat ovulation.Variations in maternal care alter corticosterone and 17beta-estradiol levels, estrous cycle and folliculogenesis and stimulate the expression of estrogen receptors alpha and beta in the ovaries of UCh ratsThe role of sex hormones and steroid receptors on female reproductive cancers.Melatonin as a Promising Agent to Treat Ovarian Cancer: Molecular Mechanisms.Apoptosis of Purkinje and granular cells of the cerebellum following chronic ethanol intake.Interaction of maternal separation on the UCh rat cerebellum.Ovarian structure and hormonal status of the UChA and UChB adult rats in response to ethanol.Nandrolone decanoate and resistance exercise training favor the occurrence of lesions and activate the inflammatory response in the ventral prostate.Androgen therapy reverses injuries caused by ethanol consumption in the prostate: testosterone as a possible target to ethanol-related disorders.Sex steroid receptors profiling is influenced by nandrolone decanoate in the ampulla of the fallopian tube: Post-treatment and post-recovery analyses.Mast cells and ethanol consumption: interactions in the prostate, epididymis and testis of UChB rats.Testosterone therapy differently regulates the anti- and pro-inflammatory cytokines in the plasma and prostate of rats submitted to chronic ethanol consumption (UChB).Sex steroid receptors and apoptosis-related proteins are differentially expressed in polycystic ovaries of adult dogs.Chronic ethanol intake leads to structural and molecular alterations in the rat endometrium.Dose-dependent effects and reversibility of the injuries caused by nandrolone decanoate in uterine tissue and fertility of rats.Long-term exogenous melatonin treatment modulates overall feed efficiency and protects ovarian tissue against injuries caused by ethanol-induced oxidative stress in adult UChB rats.Long-term melatonin treatment reduces ovarian mass and enhances tissue antioxidant defenses during ovulation in the rat.IGFR-I expression and structural analysis of the hard palatine mucosa in an ethanol-drinking rat strain (UChA and UChB).Quantitative Proteomic Profiling Reveals That Diverse Metabolic Pathways Are Influenced by Melatonin in an in Vivo Model of Ovarian Carcinoma.Ovarian sex steroid receptors and sex hormones in androgenized rats.Apoptosis is triggered by melatonin in an in vivo model of ovarian carcinoma.Rutin ameliorates glycemic index, lipid profile and enzymatic activities in serum, heart and liver tissues of rats fed with a combination of hypercaloric diet and chronic ethanol consumption.MMP-2 and MMP-9 activities and TIMP-1 and TIMP-2 expression in the prostatic tissue of two ethanol-preferring rat models.The expression of aquaporins 1 and 9 in adult rat epididymis is perturbed by chronic exposure to ethanolCalorimetry, morphometry, oxidative stress, and cardiac metabolic response to growth hormone treatment in obese and aged ratsChronic ethanol consumption alters all-trans-retinoic acid concentration and expression of their receptors on the prostate: a possible link between alcoholism and prostate damageQuercetin ameliorates glucose and lipid metabolism and improves antioxidant status in postnatally monosodium glutamate-induced metabolic alterationsPhysical exercise on the rat ventral prostate: steroid hormone receptors, apoptosis and cell proliferationEthanol modulates the synthesis and catabolism of retinoic acid in the rat prostateModulation of inflammatory and hormonal parameters in response to testosterone therapy: Effects on the ventral prostate of adult ratsInteractions of ethanol and caffeine on apoptosis in the rat cerebellum (voluntary ethanol consumers)Histopathological changes in androgenized ovaries are recovered by melatonin treatmentP-MAPA and Interleukin-12 Reduce Cell Migration/Invasion and Attenuate the Toll-Like Receptor-Mediated Inflammatory Response in Ovarian Cancer SKOV-3 Cells: A Preliminary StudyP-MAPA and IL-12 Differentially Regulate Proteins Associated with Ovarian Cancer Progression: A Proteomic StudyMelatonin Promotes Uterine and Placental Health: Potential Molecular MechanismsMitochondrial functions and melatonin: a tour of the reproductive cancers
P50
Q28537709-FD5C8B98-1A66-41C4-A888-B92327FF21C5Q33624518-D5F387C8-9DBC-4C04-8B7E-860D91710338Q34438693-3FDEC00D-0ABC-4C90-9599-63777774CDA9Q35066004-237122E2-0E90-44BC-BE56-6EB3ADCDFF83Q35181678-52A09C3B-4626-48E2-A350-30A2DCBFAC53Q35692819-3E081BCB-2777-4029-A337-7E332FDA053DQ39064226-4E74550F-CE53-4722-A2C3-D80A1F065ED3Q39346336-0073BA07-78F9-4CE1-813A-09E8131B0776Q43663993-F98E488A-C7CB-415E-AB36-2F88519DA37BQ44749174-42FC146A-6164-4720-B7D6-38795165AB6AQ46237950-248F9FB8-EFDB-427C-8D4F-BDAF7C7F1D03Q46574289-8D427CB1-B0A7-4B3B-9351-7460805B0FB5Q48058147-505DDD48-A8D9-4796-B929-59B0DC3171B8Q50076804-98F43205-A605-447C-909E-9558E3351E77Q50284001-E5F7B0F8-FE00-4D61-B268-B1D5AF46139AQ50427007-F848AD50-440B-4109-A69B-42983BE59A4EQ50540446-2C16D95F-9F07-45EA-B66D-5EDCC5FF12A1Q50902548-92AFFF48-74C4-4D76-9273-686C48275CF0Q51144737-073156AB-3130-4B8B-9638-676F8A430173Q51486883-B8A19110-681B-4910-AC0B-458A900746C5Q51501328-8E6C86B9-FE46-4E0B-AA3C-6644BE25C866Q51504075-FA2FEB8F-FAF4-4D8B-B337-C28836E2AC75Q51529355-37DB5E03-E7F8-4F64-B209-4B384F3273ADQ51837810-735D71C0-606E-4069-B2CD-DEDEE7238F70Q53282164-3F09B08B-7558-46E2-9AE6-64440A71EB0EQ54323769-38628756-0321-4B39-805E-637647C65693Q54911489-F4F8C22D-9199-4A7E-BF18-56B992CC2EDBQ82745315-FB663187-EB9A-464F-8FB0-A5F89869B260Q83745876-A0A44446-3DD0-4487-A629-CED2BA19ECDBQ84440086-4BA6A664-FBCC-40E5-876D-8A9E5BA7ABE4Q84585494-4BA09503-EB14-425B-818D-AEEA1189240BQ84618105-0A3B8F3A-B24E-4854-BF99-F9C425CC3B4FQ86842404-7E43E94F-9BEB-4D84-9C42-3E4F438B756CQ88713073-70A48B51-B4D2-4F05-A11D-61C100775E54Q91379888-629BB72B-C554-4573-86C0-B74D7C490C9EQ91759898-AC65F758-B1B1-4685-BCE8-758E3E70245FQ92153231-8142C25A-4870-4CB0-BC7B-DC08B6769ABAQ92347062-591093D5-884D-4C55-9B5A-A15AD559D016Q92445930-290F8954-E9E6-478B-B897-03766D862DC5Q93084744-0B832189-45BF-4A4F-B1EE-D4E84D0DE6DC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luiz Gustavo A Chuffa
@ast
Luiz Gustavo A Chuffa
@en
Luiz Gustavo A Chuffa
@es
Luiz Gustavo A Chuffa
@nl
type
label
Luiz Gustavo A Chuffa
@ast
Luiz Gustavo A Chuffa
@en
Luiz Gustavo A Chuffa
@es
Luiz Gustavo A Chuffa
@nl
prefLabel
Luiz Gustavo A Chuffa
@ast
Luiz Gustavo A Chuffa
@en
Luiz Gustavo A Chuffa
@es
Luiz Gustavo A Chuffa
@nl
P106
P21
P31
P496
0000-0002-0199-3396