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1.
Toxicol In Vitro ; 73: 105147, 2021 Jun.
Article in English | MEDLINE | ID: mdl-33722738

ABSTRACT

Pulp and paper mill effluent can cause changes in the morphology and energy metabolism in the zebrafish (Danio rerio) testis. Betulin, a naturally occurring triterpene is commonly present in this type of effluent and is suspected of being involved in these effects. The aim of this study was to compare the effects pulp and paper mill effluent and betulin on various aspects of testicular physiology in the zebrafish. This included the in vitro effects of effluent and betulin on testicular lactate content and lactate dehydrogenase (LDH) activity. In addition, the effects of betulin on glucose uptake, glycogen, alanine aminotransferase (ALT), reactive oxygen and nitrogen species formation and oxidative damage in the testes were determined. Furthermore, we compared the effects and mechanism of action of betulin and effluent on calcium homeostasis in testes. In vitro exposure to both effluent and betulin decreased lactate and calcium influx, possibly due to the activation of the sodium­calcium exchanger (NCX) pump. Additionally, betulin-treated testes had higher reactive oxygen species (ROS) and reduced glutathione (GSH) content, as well as increased glutathione transferase (GST) activity and a tendency towards decreased catalase (CAT) activity. Thus, this study shows that alterations in testis physiology caused by the pulp and paper mill effluent in the testis may be due in part to the actions of betulin.


Subject(s)
Testis/drug effects , Triterpenes/toxicity , Water Pollutants, Chemical/toxicity , Animals , Calcium/metabolism , Catalase/metabolism , Glucose/metabolism , Glutathione/metabolism , Glutathione Transferase/metabolism , Glycogen/metabolism , Industrial Waste , L-Lactate Dehydrogenase/metabolism , Lactic Acid/metabolism , Male , Oxidative Stress/drug effects , Paper , Reactive Nitrogen Species/metabolism , Reactive Oxygen Species/metabolism , Superoxide Dismutase/metabolism , Testis/metabolism , Zebrafish
2.
Anim Reprod ; 17(2): e20190116, 2020 Jun 26.
Article in English | MEDLINE | ID: mdl-32714452

ABSTRACT

Our objective was to investigate whether the pulp and paper mill industry effluent could affect the testis and Sertoli cells in a fast exposure period. For this, the present study was carried out in immature rats at 10-day-old. Testis treated in vitro with 4% effluent for 1 h presented changes in energy metabolism in terms of a decrease in lactate content and glucose uptake. Elevation in GSH content, as an antioxidant defense mechanism, was also detected. Sertoli cells treated with 4% effluent for 1 hour showed alterations in the mitochondrial metabolism that favor the decoupling of oxidative phosphorylation and the generation of oxygen reactive species and also a time and concentration-dependent delay secretion of acidic vesicles. Our results showed that pollutants present in the pulp and paper mill effluents, in a short time of exposure, are capable of inducing alterations in important metabolic functions in the testis and in Sertoli cells that are crucial for the correct progression of spermatogenesis and fertility.

3.
Anim. Reprod. ; 17(2): e20190116, 2020. graf
Article in English | VETINDEX | ID: vti-27230

ABSTRACT

Our objective was to investigate whether the pulp and paper mill industry effluent could affect the testis and Sertoli cells in a fast exposure period. For this, the present study was carried out in immature rats at 10-day-old. Testis treated in vitro with 4% effluent for 1 h presented changes in energy metabolism in terms of a decrease in lactate content and glucose uptake. Elevation in GSH content, as an antioxidant defense mechanism, was also detected. Sertoli cells treated with 4% effluent for 1 hour showed alterations in the mitochondrial metabolism that favor the decoupling of oxidative phosphorylation and the generation of oxygen reactive species and also a time and concentration-dependent delay secretion of acidic vesicles. Our results showed that pollutants present in the pulp and paper mill effluents, in a short time of exposure, are capable of inducing alterations in important metabolic functions in the testis and in Sertoli cells that are crucial for the correct progression of spermatogenesis and fertility.(AU)


Subject(s)
Animals , Rats , Testis/metabolism , Testis/physiology , Rats/metabolism , Sertoli Cells , Lactic Acid
4.
Anim. Reprod. (Online) ; 17(2): e20190116, 2020. graf
Article in English | VETINDEX | ID: biblio-1461502

ABSTRACT

Our objective was to investigate whether the pulp and paper mill industry effluent could affect the testis and Sertoli cells in a fast exposure period. For this, the present study was carried out in immature rats at 10-day-old. Testis treated in vitro with 4% effluent for 1 h presented changes in energy metabolism in terms of a decrease in lactate content and glucose uptake. Elevation in GSH content, as an antioxidant defense mechanism, was also detected. Sertoli cells treated with 4% effluent for 1 hour showed alterations in the mitochondrial metabolism that favor the decoupling of oxidative phosphorylation and the generation of oxygen reactive species and also a time and concentration-dependent delay secretion of acidic vesicles. Our results showed that pollutants present in the pulp and paper mill effluents, in a short time of exposure, are capable of inducing alterations in important metabolic functions in the testis and in Sertoli cells that are crucial for the correct progression of spermatogenesis and fertility.


Subject(s)
Animals , Rats , Sertoli Cells , Rats/metabolism , Testis/physiology , Testis/metabolism , Lactic Acid
5.
Biochemistry ; 57(26): 3894-3902, 2018 07 03.
Article in English | MEDLINE | ID: mdl-29792023

ABSTRACT

The objective of this study was to investigate the effect and the mechanism of action of fernenediol as an insulin secretagogue. Wistar rats were treated with 0.1, 1, and 10 mg/kg fernenediol before inducing hyperglycemia by oral glucose. The glycaemia, insulin, LDH, calcium, and hepatic glycogen were analyzed. Considering the intestine and pancreas as targets for the triterpene action, the duodenum was used to verify the influence of fernenediol on intestinal glycosidases. Additionally, pancreatic islets were used for studies of 14C-deoxyglucose uptake and the influx of 45Ca2+ in hyperglycemic media with/without fernenediol in the presence/absence of an inhibitor/activator of KATP channels, glibenclamide, diazoxide, nifedipine, calcium chelator (BAPTA-AM), and H-89 and ST, the inhibitors of the PKA and PKC enzymes. Fernenediol significantly reduced glycaemia, potentiated glucose-induced insulin secretion, and stimulated liver glycogen deposition in hyperglycemic rats after an in vivo treatment without changing intestinal disaccharidases activities and showing no influence on intestinal glucose absorption. Also, it stimulated the glucose uptake and calcium influx in pancreatic islets. The involvement of voltage-dependent L-type calcium channels and ATP-dependent potassium channels and the release of calcium from intracellular stores are mandatory for the stimulatory effect of fernenediol on calcium influx. Fernenediol did not change PKA and PKC activities or modify calcium levels. This triterpene is a potent antihyperglycemic agent with a strong insulin secretagogue effect on glycogen accumulation as well. As a whole, this compound presents significant perspectives as a future new drug for the treatment of insulin resistance and/or diabetes.


Subject(s)
Hyperglycemia/blood , Insulin/blood , Secretagogues/pharmacology , Animals , Calcium Channels, L-Type/metabolism , Cyclic AMP-Dependent Protein Kinases/metabolism , Glycogen/metabolism , Hyperglycemia/drug therapy , Male , Potassium Channels/metabolism , Protein Kinase C/metabolism , Rats , Rats, Wistar , Secretagogues/chemistry
6.
Comp Biochem Physiol C Toxicol Pharmacol ; 206-207: 41-47, 2018 Apr.
Article in English | MEDLINE | ID: mdl-29499384

ABSTRACT

While many studies have shown that pulp mill effluents can affect ovarian physiology in fish, far fewer studies have considered the effects in males. We conducted a lab study to examine the effects of effluent from a Brazilian pulp and paper mill on hepatic and testicular morphology and various aspects of testicular physiology in the zebrafish Danio rerio. Males were exposed to lab water (control) or 4% effluent for 14 days. Effluent exposure did not affect testis size as measured by the gonadosomatic index, but contributed to morphological changes in the seminiferous tubules. The number of cysts with histopathological changes was elevated in effluent-exposed fish and the number of cysts containing spermatids was significantly reduced. The testis of effluent exposed fish had reduced levels of lactate, elevated lactate dehydrogenase activity, increased levels of reactive oxygen species and reduced levels of phosphorylated P38 mitogen-activated protein kinase (pP38 MAPK). Separate studies showed that the addition of lactate to testicular tissue incubated in vitro increased the activation of P38 MAPK. Effluent exposure also increased vacuolization, necrosis, apoptosis, hyperemia, and fat infiltration of the hepatocytes. Collectively, we provide evidence of short term effects of pulp mill effluent on testicular and hepatic physiology and biochemistry in the zebrafish.


Subject(s)
Extraction and Processing Industry , Liver/drug effects , Oxidative Stress/drug effects , Paper , Testis/drug effects , Wastewater/toxicity , Wood , Animals , Apoptosis/drug effects , Brazil , Lactate Dehydrogenases/metabolism , Lactic Acid/metabolism , Liver/cytology , Liver/metabolism , MAP Kinase Signaling System/drug effects , Male , Reactive Oxygen Species/metabolism , Seminiferous Tubules/cytology , Seminiferous Tubules/drug effects , Seminiferous Tubules/metabolism , Testis/cytology , Testis/metabolism , Toxicity Tests, Acute , Vacuoles/drug effects , Vacuoles/metabolism , Zebrafish , Zebrafish Proteins/metabolism
7.
Curr Drug Targets ; 18(6): 641-650, 2017.
Article in English | MEDLINE | ID: mdl-27316908

ABSTRACT

Glibenclamide is widely used and remains a cornerstone and an effective antihyperglycemic drug. After the casual discovery of its hypoglycemic potential, this compound was introduced for diabetes treatment. However, the long-term side effects reveal that glibenclamide should be replaced by new molecules able to maintain the health of ß-cells, protecting them from hyperstimulation/hyperexcitability, hyperinsulinemia, functional failure and cell death. The aim of this review was to highlight the main mechanism of action of glibenclamide and the influence of its derivatives, such as acylhydrazones, sulfonamides and sulfonylthioureas on ß-cells potassium and calcium channels for insulin secretion as well as the contribution of these new compounds to restore glucose homeostasis. Furthermore, the role of glibenclamide-based novel structures that promise less excitability of ß-cell in a long-term treatment with effectiveness and safety for diabetes therapy was discussed.


Subject(s)
Calcium Channels/drug effects , Glyburide/pharmacology , Hypoglycemic Agents/pharmacology , Potassium Channels/drug effects , Animals , Glyburide/agonists , Glyburide/chemistry , Homeostasis/drug effects , Humans , Hypoglycemic Agents/chemistry , Insulin-Secreting Cells/drug effects , Sulfonamides/chemistry , Sulfonamides/pharmacology , Sulfonylurea Compounds/chemistry , Sulfonylurea Compounds/pharmacology
8.
Life Sci ; 154: 58-65, 2016 Jun 01.
Article in English | MEDLINE | ID: mdl-27108785

ABSTRACT

AIM: Triterpenes and their derivatives influence on carbohydrate metabolism. In vivo and in vitro treatment investigated the effect of the natural triterpene fern-9(11)-ene-2α,3ß-diol (1), isolated from Croton heterodoxus, and a derivative triterpene (2) on glucose homeostasis. MAIN METHODS: The antidiabetic effect of the crude extract from C. heterodoxus leaves, the natural triterpene (1) as well as the derivative triterpene (2) were assayed on glucose tolerance. The effect and the mechanism of action on in vivo treatment with triterpene 2 on glycaemia and insulin secretion were studied. In addition, in vitro studies investigated the mechanism of triterpene 2 on glucose uptake and calcium influx on insulin secretion in pancreatic islets. KEY FINDINGS: The results show the extract slightly reduced the glycaemia when compared with hyperglycemic group. However, the presence of the substituent electron-withdrawing 4-nitrobenzoyl group in the A-ring of triterpene 2 powered the serum glucose lowering compared to triterpene 1. In addition, in vivo treatment with triterpene 2 significantly increased the insulin secretion induced by glucose and stimulated the glucose uptake and calcium influx in pancreatic islet. The effect of triterpene on calcium influx was completely inhibited by diazoxide, nifedipine and stearoylcarnitine treatment. SIGNIFICANCE: The stimulatory effect of triterpene 2 on glucose uptake, calcium influx, regulation of potassium (K(+)-ATP) and calcium (L-VDCCs) channels activity as well as the pathway of PKC highlights the mechanism of action of the compound in pancreatic islets on insulin secretion and glucose homeostasis. In addition, this compound did not induce toxicity in this experimental condition.


Subject(s)
Insulin/metabolism , Islets of Langerhans/metabolism , Signal Transduction , Triterpenes/pharmacology , Animals , Insulin Secretion , Male , Rats , Rats, Wistar
9.
J Cell Biochem ; 117(5): 1199-209, 2016 May.
Article in English | MEDLINE | ID: mdl-26447772

ABSTRACT

To characterize the role and the mechanism of action of (2E)-N'-(1'-naphthyl)-3,4,5-trimethoxybenzohydrazide (BZD) on incretin secretion, glucose uptake in skeletal muscle and α-glucosidase activity on intestine, targets for glucose homeostasis. It was assayed on glucose tolerance test (GTT) to analyze GLP-1 secretion and the activity of DPP-4 enzyme in vitro. In skeletal muscle, mechanism of action on glucose uptake was carried out by in vitro experiments. The activity of intestinal disaccharidases was performed after in vivo and in vitro experiments. The compound improved the glucose tolerance around 30%, 25%, and 20% at 15, 30, and 60 min, respectively and potentiated the sitagliptin effect, an inhibitor of the enzyme that removes GLP-1, about 50, 45, and 54% at 15, 30, and 60 min, respectively. Additionally, BZD did not modify the activity of DPP-4 enzyme. The acute effect of BZD on glucose uptake is mediated by increasing GLUT4 expression (around 140%) and its translocation to the plasma membrane in soleus muscle. The genomic effect as well as GLUT4 translocation involve the activation of PI-3K and MAPK pathways and require the microtubules integrity to the complete stimulatory effect of this compound on glucose uptake. Beyond, BZD acts in an alternative target to ameliorate glycaemia, intestinal disaccharidases. In a whole, these data point an incretino- and insulinomimetic effect of the compound for glycemic control.


Subject(s)
Anisoles/pharmacology , Blood Glucose/metabolism , Homeostasis/drug effects , Hydrazones/pharmacology , Incretins/metabolism , Insulin/metabolism , Animals , Dipeptidyl Peptidase 4/metabolism , Disaccharidases/metabolism , Glucagon-Like Peptide 1/metabolism , Glucose/metabolism , Glucose/pharmacokinetics , Glucose Tolerance Test , Glucose Transporter Type 4/metabolism , Hypoglycemic Agents/pharmacology , Immunoblotting , Insulin Secretion , Intestine, Small/drug effects , Intestine, Small/enzymology , MAP Kinase Signaling System/drug effects , Male , Muscle, Skeletal/drug effects , Muscle, Skeletal/metabolism , Phosphatidylinositol 3-Kinases/metabolism , Protein Biosynthesis/drug effects , Protein Transport/drug effects , Rats, Wistar
10.
J Steroid Biochem Mol Biol ; 150: 112-22, 2015 Jun.
Article in English | MEDLINE | ID: mdl-25843210

ABSTRACT

The effect of 3ß-hidroxihop-22(29)ene (3-BHO) on insulin and glucagon-like peptide 1 (GLP-1) secretion as well as the mechanism of action of the compound in pancreatic islet on glucose homeostasis was investigated. The data from in vivo treatment show that 3-BHO significantly reduces the hyperglycemia by increasing the insulin and GLP-1 secretion, as well as by accumulating hepatic glycogen in hyperglycemic rats. In rat pancreatic ß-cell, 3-BHO stimulates the glucose uptake, insulin vesicles translocation to the plasma membrane and thus the insulin secretion through the involvement of potassium channels (ATP- and Ca(2+)-dependent K(+) channels) and calcium channels (L-type voltage-dependent calcium channels (L-VDCC)). Furthermore, this study also provides evidence for a crosstalk between intracellular high calcium concentration, PKA and PKC in the signal transduction of 3-BHO to stimulate insulin secretion. In conclusion, 3-BHO diminishes glycaemia, stimulates GLP-1 secretion and potentiates insulin secretion and increase hepatic glycogen content. Moreover, this triterpene modulates calcium influx characterizing ATP-K(+), Ca(2+)-K(+) and L-VDCC channels-dependent pathways as well as PKA and PKC activity in pancreatic islets underlying the signaling of 3-BHO for the secretory activity and contribution on glucose homeostasis.


Subject(s)
Calcium Channels, L-Type/metabolism , Glucagon-Like Peptide 1/blood , Insulin/metabolism , Islets of Langerhans/drug effects , KATP Channels/metabolism , Potassium Channels, Calcium-Activated/metabolism , Triterpenes/pharmacology , Animals , Biological Transport , Calcium/metabolism , Calcium Channels, L-Type/genetics , Cyclic AMP-Dependent Protein Kinases/genetics , Cyclic AMP-Dependent Protein Kinases/metabolism , Gene Expression Regulation , Glucagon-Like Peptide 1/genetics , Glucose/metabolism , Glucose Tolerance Test , Glycogen/metabolism , Homeostasis/genetics , Humans , Insulin/blood , Insulin Secretion , Islets of Langerhans/cytology , Islets of Langerhans/metabolism , KATP Channels/genetics , Male , Potassium Channels, Calcium-Activated/genetics , Protein Kinase C/genetics , Protein Kinase C/metabolism , Rats , Rats, Wistar , Signal Transduction , Tissue Culture Techniques
11.
Biochim Biophys Acta ; 1850(1): 51-61, 2015 Jan.
Article in English | MEDLINE | ID: mdl-25312987

ABSTRACT

BACKGROUND: The effect of in vivo treatment with ursolic acid (UA) on glycemia in hyperglycemic rats and its mechanism of action on muscle were studied. METHODS: The UA effects on glycemia, glycogen, LDH, calcium and on insulin levels were evaluated after glucose tolerance curve. The ß-cells were evaluated through the transmission electron microscopy. UA mechanism of action was studied on muscles through the glucose uptake with/without specific insulin signaling inhibitors. The nuclear effect of UA and the GLUT4 expression on muscle were studied using thymidine, GLUT4 immunocontent, immunofluorescence and RT-PCR. RESULTS: UA presented a potent antihyperglycemic effect, increased insulin vesicle translocation, insulin secretion and augmented glycogen content. Also, UA stimulates the glucose uptake through the involvement of the classical insulin signaling related to the GLUT4 translocation to the plasma membrane as well as the GLUT4 synthesis. These were characterized by increasing the GLUT4 mRNA expression, the activation of DNA transcription, the expression of GLUT4 and its presence at plasma membrane. Also, the modulation of calcium, phospholipase C, protein kinase C and PKCaM II is mandatory for the full stimulatory effect of UA on glucose uptake. UA did not change the serum LDH and serum calcium balance. CONCLUSIONS: The antihyperglycemic role of UA is mediated through insulin secretion and insulinomimetic effect on glucose uptake, synthesis and translocation of GLUT4 by a mechanism of cross-talk between calcium and protein kinases. GENERAL SIGNIFICANCE: UA is a potential anti-diabetic agent with pharmacological properties for insulin resistance and diabetes therapy.


Subject(s)
Blood Glucose/metabolism , Calcium/metabolism , Insulin/metabolism , Protein Kinases/metabolism , Triterpenes/pharmacology , Animals , Calcium/blood , Cell Membrane/drug effects , Cell Membrane/metabolism , Dose-Response Relationship, Drug , Gene Expression/drug effects , Glucose/metabolism , Glucose Transporter Type 4/genetics , Glucose Transporter Type 4/metabolism , Glycogen/metabolism , Hypoglycemic Agents/pharmacology , Immunoblotting , Insulin/blood , Insulin/pharmacology , Insulin Secretion , Insulin-Secreting Cells/drug effects , Insulin-Secreting Cells/metabolism , Insulin-Secreting Cells/ultrastructure , L-Lactate Dehydrogenase/blood , L-Lactate Dehydrogenase/metabolism , Male , Microscopy, Electron, Transmission , Molecular Structure , Muscle, Skeletal/drug effects , Muscle, Skeletal/metabolism , Rats, Wistar , Reverse Transcriptase Polymerase Chain Reaction , Triterpenes/chemistry , Ursolic Acid
12.
Int J Biochem Cell Biol ; 48: 18-27, 2014 Mar.
Article in English | MEDLINE | ID: mdl-24316531

ABSTRACT

The effect of betulinic acid on glycemia and its mechanism of action compared with 1,25(OH)2 vitamin D3 in rat muscle were investigated. Betulinic acid improved glycemia, induced insulin secretion and increased the glycogen content and glucose uptake in muscle tissue. Additionally, the integrity of both PI3K and the cytoskeleton is necessary for the stimulatory action of betulinic acid in glucose uptake. The genomic effect was apparent, since cycloheximide and PD98059 nullified the stimulatory effect of betulinic acid on glucose uptake. Therefore, although this compound did not modify the DNA transcription, the protein translation was significantly improved. Also, betulinic acid increased the GLUT4 immunocontent and its translocation was corroborated by GLUT4 localization at the plasma membrane (after 180 min). On the other hand, the effect of 1,25(OH)2 vitamin D3 on glucose uptake is not mediated by PI3K and microtubule activity. In contrast, the nuclear activity of 1,25(OH)2 vitamin D3 is necessary to trigger glucose uptake. In addition, the increased DNA transcription and GLUT4 immunocontent provide evidence of a mechanism by which 1,25(OH)2 vitamin D3 contributes to glycemia. In conclusion, betulinic acid acts as an insulin secretagogue and insulinomimetic agent via PI3K, MAPK and mRNA translation and partially shares the genomic pathway with 1,25(OH)2 vitamin D3 to upregulate the GLUT4. In summary, betulinic acid regulates glycemia through classical insulin signaling by stimulating GLUT4 synthesis and translocation. In addition, it does not cause hypercalcemia, which is highly significant from the drug discovery perspective.


Subject(s)
Glucose/metabolism , Muscle, Skeletal/drug effects , Muscle, Skeletal/metabolism , Triterpenes/pharmacology , Vitamin D/analogs & derivatives , Animals , Biological Transport , Blood Glucose/metabolism , Calcium/blood , Glucose/administration & dosage , Glucose/pharmacokinetics , Glucose Transporter Type 4/metabolism , Glycogen/metabolism , Homeostasis/drug effects , Hyperglycemia/blood , Hyperglycemia/drug therapy , Hyperglycemia/metabolism , Insulin/blood , Insulin/metabolism , L-Lactate Dehydrogenase/blood , Male , Pentacyclic Triterpenes , Protein Transport/drug effects , Rats , Rats, Wistar , Signal Transduction/drug effects , Vitamin D/pharmacology , Betulinic Acid
13.
Curr Top Med Chem ; 12(19): 2049-58, 2012.
Article in English | MEDLINE | ID: mdl-23167794

ABSTRACT

In this study the in vivo and in vitro antidiabetic effects of four acylhydrazone derivatives were investigated in rats. The secretagogue action, oral glucose tolerance, insulinogenic index and mechanism of action of these acylhydrazones in relation to calcium uptake in pancreatic islets were studied. Also, the insulinomimetic effect on glycemia in diabetic rats was verified. Of the acylhydrazones studied, 1 and 4 were able to increase glucose tolerance in an acute time-course. A powerful secretagogue effect was exhibited by 1 and glibenclamide with an insulinogenic index around 3.9 and 1.3-fold higher than that of the hyperglycemic group, respectively. Moreover, an acute and dose-dependent effect of glibenclamide and 1 on calcium uptake in pancreatic islets was observed. The rapid stimulatory effect of 1 on calcium uptake seems to be mediated, at least in part, by ATP-dependent K+ channels (K+-ATP) since the stimulatory effect of 1 was similar to that observed for glibenclamide but was not potentiated by sulphonylurea. Furthermore, both extracellular and calcium from stocks mediate the signal transduction of stimulatory effect of 1 on calcium uptake which may contribute to insulin secretion. In addition, the insulinomimetic effect of 1 was evidenced through the level of serum glucose lowering in alloxan-induced diabetic rats. Also, 1 induced a significant increase in glycogen content in vivo and glucose uptake in soleus muscle in vitro. The results of this study indicate dual physiological targets for the acylhydrazone 1, i.e., pancreatic islets and skeletal muscle, as a result of insulin secretagogue and insulinomimetic action.


Subject(s)
Blood Glucose/analysis , Homeostasis/drug effects , Hydrazones/pharmacology , Animals , Diabetes Mellitus, Experimental/blood , Diabetes Mellitus, Experimental/enzymology , Enzyme-Linked Immunosorbent Assay , Glucose Tolerance Test , Insulin/blood , L-Lactate Dehydrogenase/metabolism , Male , Rats , Rats, Wistar
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