Differential gene expression in pancreatic tissues of streptozocin-induced diabetic rats and genetically-diabetic mice in response to hypoglycemic dipeptide cyclo (His-Pro) treatment

Diabetic studies are mostly interested in gene expression in the pancreas, the site of insulin secretion that regulates blood glucose levels. However, a single gene approach has been ruled out for many years in discovering new genes or the molecular networks involved in the induction process of diabetes. To understand the molecular mechanisms by which cyclo (His-Pro) (CHP) affects amelioration of diabetes mellitus, we performed gene expression profiling in the pancreatic tissues of two diabetic animal models, streptozocin (STZ)-induced diabetic rats (T1DM) and genetically-diabetic (C57BL/6J ob/ob) mice (T2DM). To understand the healing process of these diabetic rodents, we examined the effects of CHP on various gene expression in pancreatic tissues of both animal models. Our microarray analysis revealed that a total of 1,175 genes were down-regulated and 629 genes were up-regulated in response to STZ treatment, and the altered expression levels of numerous genes were restored to normal state upon CHP treatment. In particular, 476 genes showed significantly altered gene expression upon CHP treatment. In a functional classification, 7,198 genes were counted as differentially expressed in pancreatic tissues of STZ- and CHP-treated rats compared with control, whereas 1,534 genes were restored to normal states by CHP treatment. Microarray data demonstrated for the first time that overexpression of the genes encoding IL-1 receptor, lipid metabolic enzymes (e.g. Mte1, Ptdss1, and Sult2a1), myo-inositol oxygenase, glucagon, and somatostatin as well as down-regulation of olfactory receptor 984 and mitochondrial ribosomal protein, which are highly linked to T1DM etiology. In genetically-diabetic mice, 4,384 genes were altered in gene expression by more than 2-fold compared to the control mice, when counted differentially expressed. In genetically-diabetic mice, 4,384 genes altered in expression by higher than 2-fold were counted as differentially expressed genes in pancreatic tissues of CHP-treated mice. On the other hand, 2,140 genes were up-regulated and 2,244 genes were down-regulated by CHP treatment. The results of the microarray analysis revealed that up-regulation of IL-2, IL12a, and leptin receptor and down-regulation of PIK3 played important physiological roles in the onset of T2DM. In conclusion, we hypothesize that CHP accelerates alterations of gene expression in ameliorating diabetes and antagonizes those that induces the disease.     

Alterations in pancreatic protein expression in STZ-induced diabetic rats and genetically diabetic mice in response to treatment with hypoglycemic dipeptide Cyclo (His-Pro)

To provide insights into the molecular mechanisms underlying diabetes mellitus, we performed a proteomic study on two diabetic animal models, streptozotocin (STZ)-induced diabetic rats (T1DM) and genetically diabetic (C57BL/6J ob/ob) mice (T2DM). To better understand the recovery process of those diabetic rodents, we examined the effect of hypoglycemic dipeptide Cyclo (His-Pro) (CHP) treatment on the differential expression of pancreatic proteins in both animal models. Oral administration of CHP had an excellent hypoglycemic effect in both animal models, lowering the average plasma glucose level by over 50%. Pancreatic proteins were separated by two-dimensional gel electrophoresis (2-DE) and identified by MALDI-TOF mass spectrometry. This study allowed, for the first time, the identification of 34 proteins that are related to diabetes and potential targets of CHP, a potent anti-diabetic agent for both T1DM and T2DM. The alterations in the expression of these proteins could indicate a tendency for diabetic animals to overcome their diabetic state. These proteins are involved in cellular functions such as metabolism, cellular structure, oxidative stress, as well as signal and energy transduction. Some have already been linked to diabetes, suggesting that the newly identified proteins might also be significant in the etiology of this pathology and should be further investigated. Furthermore, CHP has emerged as a potent tool for both the treatment and study of the molecular mechanisms underlying diabetes. Thus, the findings presented here provide new insights into the study and potential treatment of this pathology.     

Inhibition of abstinence syndrome in opiate defendent mice by cyclo (His-Pro)

Intracerebral administration of cyclo (His-Pro), the postulated metabolite of thyroliberin (TRH, pGlu-His-Pro-NH₂) inhibited the naloxone induced withdrawal responses in morphine dependent mice. Mice were rendered dependent on morphine by the subcutaneous implantation of a pellet (containing 75 mg of morphine free base) for three days. Six hours after pellet removal, the naloxone ED₅₀ for the jumping response was found to be higher in mice injected with cyclo (His-Pro) compared with that of vehicle controls. Similarly, the hypothermic response observed following 50 μg/kg of naloxone given given 6 h after pellet removal or that seen with 100 μg/kg of naloxone given 24 h after pellet removal from morphine-dependent mice was inhibited by cyclo (His-Pro). Previously, we have shown similar results with TRH on the morphine abstinence syndrome. It appears, therefore, that cyclo (His-Pro) may be the active metabolite of TRH and analogs of cyclo (His-Pro) may be useful in blocking the symptoms of the opiate abstinence syndrome.     

Adrenalectomy and steroid treatment in obese (ob/ob) and diabetic (db/db) mice

Adrenalectomy in young obese (ob/ob) and the diabetic (db/db) mouse slowed body weight gain. Treatment of adrenalectomized ob/ob mice with cortisone or deoxycorticosterone acetate (DOCA) significantly increased weight gain in a dose-related manner. Cortisone had no effect on weight gain on lean mice and treatment with dehydroepiandrosterone sulfate was without effect on either ob/ob or lean mice. The increment in body weight of adrenalectomized ob/ob mice treated with corticosterone and DOCA was associated with an increase in body weight and an increase in food intake. When adrenalectomy was performed at twenty-three days of age (five days before weaning), animals carrying the (db/db) genotype remained lighter than their normal littermates. These data document the importance of the adrenal gland and its steroids for the development and maintenance of many features of the obese or diabetes mouse.     

Effects of acute exercise over heart proteome from monogenic obese (ob/ob) mice

Exercise is recognized to prevent and attenuate several metabolic and cardiovascular disorders. Obesity is commonly related to cardiovascular diseases, frequently resulting in heart failure and death. To elucidate the effects of acute exercise in heart tissue from obese animals, 12‐week‐old C57BL6/J obese (ob/ob) and non‐obese (ob/OB) mice were submitted to a single bout of swimming and had their hearts analyzed by proteomic techniques. Mice were divided into three groups: control (ob/ob, n = 3; ob/OB, n = 3); a moderate intensity consisting of 20 min of swimming around 90% of Maximal Lactate Steady State (ob/ob, n = 3; ob/OB, n = 3), and a high intensity exercise performed as an incremental overload test (ob/ob, n = 3; ob/OB, n = 3). Obesity modulations were analyzed by comparing ob/ob and ob/OB control groups. Differential 2‐DE analysis revealed that single session of exercise was able to up‐regulate: myoglobin (ob/ob), aspartate aminotransferase (ob/OB) and zinc finger protein (ob/OB) and down‐regulate: nucleoside diphosphate kinase B (ob/OB), mitochondrial aconitase (ob/ob and ob/OB) and fatty acid binding protein (ob/ob). Zinc finger protein and α‐actin were up‐regulated by the effect of obesity on heart proteome. These data demonstrate the immediate response of metabolic and stress‐related proteins after exercise so as contractile protein by obesity modulation on heart proteome. J. Cell. Physiol. 228: 824–834, 2013. © 2012 Wiley Periodicals, Inc.     

Glucosyl and galactosyl transferase activities of diabetic (db/db) and obese (ob/ob) mice kidneys

• 1.1. Glucosyl and galactosyl activities were determined in kidney cortex tissue prepared from two strains of mice, genetically diabetic and obese mice.
• 2.2. These activities were measured as a function of ageing between 6 weeks and 13 months.
• 3.3. For both strains glucosyl transferase activity was shown to increase with respect to ageing whereas galactosyl transferase activity decreased at the same time.
• 4.4. These changes of enzymatic activities would suggest that a smaller increase of hydroxylysine-linked glycans than expected was observed under these pathological conditions.

     

Identification and characterization of cyclo(His-Pro)-like immunoreactivity in amniotic fluid

Amniotic fluid (AF) from 25 term pregnancies was analyzed for cyclo(His-Pro)-like immunoreactivity (CHP-LI). CHP-LI was detected in all AF samples and was indistinguishable from synthetic CHP by immunoidentity, by gel chromatography on Sephadex G-25, and by high pressure liquid chromatography. The mean concentration of CHP-LI in AF was 13,622 +/- 1288 pg/ml (+/- SE) and concentrations were not altered by maternal labor. Plasma concentrations of CHP-LI were similar in 4 pregnant and 4 control subjects [2260 +/- 432 pg/ml vs. 2162 +/- 419 pg/ml (+/- SE), respectively]. We conclude that 1) CHP-LI is readily detected in AF from term pregnancies and is indistinguishable from synthetic CHP, and 2) concentrations of CHP-LI in human AF are significantly higher than concentrations of maternal plasma CHP-LI, suggesting CHP AF originates by mechanisms other than diffusion from maternal plasma.     

Plasma proteome analysis for anti‐obesity and anti‐diabetic potentials of chitosan oligosaccharides in ob/ob mice

Altered levels of adipokines, derived as a result of distorted adipocytes, are the major factors responsible for changing biochemical parameters in obesity that leads to the development of metabolic disorders such as insulin resistance and atherosclerosis. In our previous reports, chitosan oligosaccharides (CO) were proved to inhibit the differentiation of 3T3‐L1 adipocytes. In the present study, an attempt was made to investigate the anti‐obesity and anti‐diabetic effect of CO on ob/ob mice, by means of differential proteomic analysis of plasma. This was followed by immunoblotting, and gene expression in adipose tissue to clarify the molecular mechanism. CO treatment showed reduced diet intake (13%), body weight gain (12%), lipid (29%) and glucose levels (35%). 2‐DE results showed differential levels of five proteins namely RBP4, apoE, and apoA‐IV by >2‐fold down‐regulation and by >2‐fold of apoA‐I and glutathione peroxidase (GPx) up‐regulation after CO treatment. Immunoblotting studies of adiponectin and resistin showed amelioration in their levels in plasma. Furthermore, the results of gene expressions for adipose tissue specific TNF‐α, and IL‐6 secretary molecules were also down‐regulated by CO treatment. Gene expressions of PPARγ in adipose tissue were in good agreement with the ameliorated levels of adipokines, thereby improving the pathological state. Taken together, CO might act as a potent down‐regulator of obesity‐related gene expression in ob/ob mice that may normalize altered plasma proteins to overcome metabolic disorders of obesity.     

Glucocorticoid receptor number in ob/ob mice and streptozotocin-treated rats

As one step in characterizing the effectiveness of glucocorticoid hormones in states of abnormal carbohydrate metabolism, the number and affinity of glucocorticoid receptors in cytosolic extracts of liver and kidney from ob/ob mice and pancreata from streptozotocin-treated rats were determined and compared to values derived from normals. Scatchard analysis revealed that each tissue contained the same number of glucocorticoid receptors as its control when expressed in terms of receptor number per mg of cytosolic protein. Similarly, the affinity of these receptors for dexamethasone was unchanged. It is concluded that these two forms of diabetes are not associated with abnormalities of glucocorticoid receptor number.     

Distribution and characterization of cyclo (His-Pro)-like immunoreactivity in anuran (frog) skins

The distribution of cyclo (His-Pro)-like immunoreactivity in frog skins from seven frog species was examined. The chromatographic elution profile of cyclo (His-Pro)-like immunoreactivity in amphibian skins measured by radioimmunoassay corresponded precisely to that of [³H-Pro]-cyclo (His-Pro) after DEAE-Cellulose, Sephadex G-25 and high-pressure liquid chromatography. The concentrations of cyclo (His-Pro) in frog skins were much higher than the concentrations of TRH previously observed in skin and the concentrations of cyclo (His-Pro) in both brain and gastrointestinal tract.     

Distribution and characterization of cyclo(His-Pro)-like immunoreactivity in human cerebrospinal fluid

The distribution of cyclo(His-Pro), thyrotropin-releasing hormone and pyroglutamate aminopeptidase activity was examined in the CSF of human and a number of other mammalian species. Cyclo(His-Pro)-like immunoreactivity was present in the CSF of all species examined, and was immunologically and chromatographically identical with the authentic cyclo(His-Pro). Cyclo(His-Pro) concentration in CSF had no significant correlation with CSF TRH or pyroglutamate aminopeptidase.     

Histidyl-proline diketopiperazine cyclo (His-Pro): identification and characterization in rat pancreatic islets

Measurements of cyclo (His-Pro) in the pancreas were carried out in the rat by a specific radioimmunoassay. Cyclo (His-Pro)-like immunoreactivity was identified in pancreatic islets with a mean concentration of 2023 pg/mg protein, 88-fold higher than that of the whole pancreas. Cyclo (His-Pro) immunoreactivity from pancreatic extracts was indistinguishable immunologically and chromatographically from synthetic cyclo (His-Pro). Insulin-induced hypoglycemia caused a significant, 53% decrease in pancreatic cyclo (His-Pro) concentrations, and FLA-63, a dopamine beta-oxidase inhibitor, also reduced islet cyclo (His-Pro) concentrations 51%. These data indicate that cyclo (His-Pro) is present in rat pancreatic islets and may play a potential role in modulating pancreatic responses to nutrient and pharmacologic stimuli.     

On the mechanism of fasting-associated elevations in hypothalamic cyclo(His-Pro) content

Potential mechanism(s) underlying the fasting-associated rise in hypothalamic cyclo(His-Pro) content was explored by examining the effects of 24-hour fasting on: (i) cyclo(His-Pro) synthesis from TRH, (ii) cyclo(His-Pro) metabolism, and (iii) cyclo (His-Pro) secretion by hypothalamic tissue in vitro. The data presented here show that none of these three variables were altered due to fasting. Two additional potential changes that could cause cyclo(His-Pro) elevations during fasting are suggested. These include an in vivo decrease in hypothalamic cyclo(His-Pro) secretion that may not be apparent in vitro, and/or an increase in the synthesis of cyclo(His-Pro) from a precursor(s) other than TRH.     

Focus on cyclo(His-Pro): history and perspectives as antioxidant peptide

Cyclo(His-Pro) is an endogenous cyclic dipeptide structurally related to tyreotropin-releasing hormone that was originally discovered in brain. In the central nervous system it has been described to exert multiple biological activities, which seem to be related to a presynaptic dopaminergic mechanism and include among the others a leptin-like function. It can be found in several body fluids and in the gastrointestinal tract where it has been suggested to act as a gut peptide with influence on the entero-insular axis. The oral administration of cyclo(His-Pro) and zinc was described to improve with a synergistic mechanism the glycaemic control in diabetes. The most intriguing function of this cyclic dipeptide is related with its neuroprotective role that was first reported in traumatic injuries of the spinal cord, and then confirmed in other models of experimental injuries of the nervous system. The mechanism that lies behind the neuroprotective activity of cyclo(His-Pro) remain poorly understood. Recent in vitro studies on rat pheochromocytoma PC12 cells have shown that it is a protective factor against stress stimuli and there is early pre-clinical evidence strongly suggesting that it enhances the expression of small heat shock proteins and antioxidant protection at the cellular level. Future research is underway to better characterize the possible use of this cyclic dipeptide in the therapy of neurodegenerative and metabolic disorders.     

Glucose tolerance in aging obese (ob/ob) and lean mice

Examination of the glucose tolerance in younger (3 month) and older (6 month) obese mice revealed that most of their postinjection hyperglycemia arises from the disproportionately large glucose responses to the injection/bleeding procedures rather than from the added glucose. Simultaneous measurements of circulating glucagon, corticosterone and insulin indicated that simple differences in the levels of these hormones, in their circulating ratios, or in the magnitude of the hormone responses to stimulation did not fully account for the "stress"-induced hyperglycemia.     

Characterization and solubilization of cyclo(His-Pro) binding from rat liver membranes

We have found cyclo(His-Pro) binding in rat liver plasma membranes. This study focused on the characterization of solubilized binding for cyclo(His-Pro) in rat liver membranes. The cyclo(His-Pro) binding of liver membranes was solubilized by digitonin and octyl-glucopyranoside. The efficiency of solubilization with digitonin was greater. However, cyclo(His-Pro) binding was not solubilized by Triton X-100, CHAPS, or Lubrol. Digitonin-solubilized membranes showed cyclo(His-Pro) binding with a high affinity constant (17 nM) and a low binding capacity (38 fmol/mg protein). Lectins from wheat germ, Bandeiraea simplicifolia II, Dolichos biflorus, Glycine max, and Tetragonolobus purpureas significantly adsorbed [3H]cyclo(His-Pro)-binding complex, but Bandeiraea simplicifolia I, Ricinus communis I, or Lens culinaris did not adsorb the binding complex. An analysis of [3H]cyclo(His-Pro)-associated membranes by high performance gel filtration chromatography showed a radioactive peak of Mr 200,000. These data indicate that cyclo(His-Pro) binding of rat liver membranes is solubilized by digitonin and is a glycoprotein of Mr 200,000.     

Role of endogenous cyclo(His-Pro) in cold-induced hypothermia in the desert rat (Mastomys natalensis)

Central administration of exogenous cyclo(His-Pro) (CHP) is known to produce hypothermia in rodents. In the present study, we examined the role of endogenous CHP in cold-induced hypothermia in the desert rat, Mastomys natalensis. The results of these studies show that a rise in hypothalamic CHP content accompanied a decrease in rectal temperature during cold exposure. Immunoneutralization of endogenous CHP resulted in a significant decline in cold-induced hypothermia. In addition, central administration of cyclo(Ala-Gly), a structural analogue of CHP, also led to a decrease in cold-induced hypothermia. The results of these studies show that changes in endogenous CHP levels may affect body temperature regulation.