Effects of melatonin on thymic and oxidative stress dysfunctions during Trypanosoma cruzi infection

Although the exact etiology of Chagas disease is not completely elucidated, thymic atrophy and oxidative stress are believed to be important contributors to the pathogenesis during acute Trypanosoma cruzi (T. cruzi ) infection. We hypothesized that exogenous melatonin, administered by gavage (5 mg/kg, p.o., gavage) to young (5 weeks old) and middle‐aged (18 months old) male Wistar rats, would modulate thymic oxidative damage and reverse the age‐related thymus regression during T. cruzi acute infection. Increased levels of superoxide anion (O₂^?) were detected in the thymus of infected animals, and treatment with melatonin reverted this response. We found reduced TBARS levels as well as a significant increase in superoxide dismutase (SOD ) activity in the thymus of all middle‐aged melatonin‐treated animals, infected or not with T. cruzi . Furthermore, melatonin increased the thymic expression of SOD 1 and SOD 2 in middle‐aged control animals. Nox2 expression was not affected by melatonin treatment in young or middle‐aged animals. Melatonin reverted the age‐related thymic regression as revealed by the increase in thymus weight, total number of thymocytes, and reduction in age‐related accumulation of double‐negative thymocytes. This is the first report to directly examine the effects of melatonin treatment on the thymic antioxidant/oxidant status and thymic changes during T. cruzi infection. Our results revealed new antioxidant features that turn melatonin a potentially useful compound for the treatment of Chagas disease, a condition in which an excessive oxidative damage occurs.     

Immunoregulatory actions of melatonin and zinc during chronic Trypanosoma cruzi infection

After one century of the discovery of Chagas' disease and the development of an efficient drug with amplitude of actions both in the acute and chronic phase is still a challenge. Alternative immune modulators have been exhaustively used. For that purpose, melatonin and zinc were administered during chronic Trypanosoma cruzi‐infected Wistar rats and several endpoints were assessed. Melatonin has a remarkable functional versatility, being associated with important antioxidant, anti‐inflammatory, and anti‐apoptotic effects. The cross‐talk between zinc and the immune system includes its ability to influence the production and signaling of numerous inflammatory cytokines in a variety of cell types. Our study showed that zinc triggered a decrease in the generation of IFN‐γ for TCD4⁺ cells. Reduced percentage of CD4⁺T cells producing TNF‐α was observed in control melatonin or zinc‐and‐melatonin‐treated animals as compared with untreated rats. On the other hand, a significant increase in the percentage of IL‐4 from CD4⁺ and CD8⁺ T lymphocytes producers was observed 60 days after infection, for all zinc‐treated animals, whether infected or not. Melatonin and zinc therapies increased the percentages of CD4⁺ and CD8⁺ T lymphocytes IL‐10 producers. CD4⁺CD25^highFoxp3⁺ T cells were also elevated in zinc‐ and melatonin‐treated animals. The modulation of the immune system influenced by these molecules affected cytokine production and the inflammatory process during chronic T. cruzi infection. Elucidation of the interplay between cytokine balance and the pathogenesis of Chagas’ disease is extremely relevant not only for the comprehension of the immune mechanisms and clinical forms but, most importantly, also for the implementation of efficient and adequate therapies.     

Interleukin‐17, oxidative stress,and inflammation: role of melatonin during Trypanosoma cruzi infection

Although the exact etiology of Chagas' disease remains unknown, the inflammatory process and oxidative stress are believed to be the main contributors to the dysfunction and pathogenesis during chronic Trypanosoma cruzi infection. Our hypothesis is that melatonin administered for 2 months daily could modulate the oxidative stress and the inflammatory response during the chronic infection. Flow cytometric analysis of macrophages and antigen‐presenting cells (APC), expression of RT1B as well as LFA‐1 and MCP‐1 in CD4⁺ and CD8⁺T cells and levels of interleukin‐17A were assessed. The oxidative stress was evaluated through lipid peroxidation (LPO) analysis on the plasma of thiobarbituric acid‐reactive substances (TBARS) and nitric oxide production. Decreased concentrations of nitrite and TBARS were found in infected and melatonin‐treated animals, as well as a rising trend in the production of IL‐17A as compared to infected and untreated counterparts. A significant decrease was found in the percentages of CD4⁺ and CD8⁺T lymphocytes MCP‐1 producers for infected and melatonin‐treated rats. Reduced percentage of CD8⁺T cells producing LFA‐1 was observed in control and melatonin‐treated animals as compared to untreated rats. The cellular response of peritoneal APC cells and macrophages significantly dropped in infected and treated animals. As an endpoint, the use of antioxidant compounds such as melatonin emerges as a new and promising approach to control the oxidative stress during the chronic Chagas' disease partially mediated through the abrogation of LPO and the prevention of the inflammatory response and can be used for further investigation on treatment trials for other infectious diseases.     

Hepatic compartmentalization of exhausted and regulatory cells in HIV/HCV‐coinfected patients

Accelerated intrahepatic hepatitis C virus (HCV) pathogenesis is likely the result of dysregulation within both the innate and adaptive immune compartments, but the exact contribution of peripheral blood and liver lymphocyte subsets remains unclear. Prolonged activation and expansion of immunoregulatory cells have been thought to play a role. We determined immune cell subset frequency in contemporaneous liver and peripheral blood samples from chronic HCV‐infected and HIV/HCV‐coinfected individuals. Peripheral blood mononuclear cells (PBMC) and biopsy‐derived liver‐infiltrating lymphocytes from 26 HIV/HCV‐coinfected, 10 chronic HCV‐infected and 10 HIV‐infected individuals were assessed for various subsets of T and B lymphocytes, dendritic cell, natural killer (NK) cell and NK T‐cell frequency by flow cytometry. CD8⁺ T cells expressing the exhaustion marker PD‐1 were increased in HCV‐infected individuals compared with uninfected individuals (P = 0.02), and HIV coinfection enhanced this effect (P = 0.005). In the liver, regulatory CD4⁺CD25⁺Foxp3⁺ T cells, as well as CD4⁺CD25⁺PD1⁺ T cells, were more frequent in HIV/HCV‐coinfected than in HCV‐monoinfected samples (P < 0.001). HCV was associated with increased regulatory T cells, PD‐1⁺ T cells and decreased memory B cells, regardless of HIV infection (P ≤ 0.005 for all). Low CD8⁺ expression was observed only in PD‐1⁺CD8⁺ T cells from HCV‐infected individuals and healthy controls (P = 0.002) and was associated with enhanced expansion of exhausted CD8⁺ T cells when exposed in vitro to PHA or CMV peptides. In conclusion, in HIV/HCV coinfection, ongoing HCV replication is associated with increased regulatory and exhausted T cells in the periphery and liver that may impact control of HCV. Simultaneous characterization of liver and peripheral blood highlights the disproportionate intrahepatic compartmentalization of immunoregulatory T cells, which may contribute to establishment of chronicity and hepatic fibrogenesis in HIV coinfection.     

Melatonin prevents experimental preterm labor and increases offspring survival

Preterm delivery is the leading cause of neonatal mortality and contributes to delayed physical and cognitive development in children. At present, there is no efficient therapy to prevent preterm labor. A large body of evidence suggests that intra‐amniotic infections may be a significant and potentially preventable cause of preterm birth. This work assessed the effect of melatonin in a murine model of inflammation‐associated preterm delivery which mimics central features of preterm infection in humans. For this purpose, preterm labor was induced in BALB/c mice by intraperitoneal injections of bacterial lipopolysaccharide (LPS) at 10.00 hr (10 μg LPS) and 13.00 hr (20 μg LPS) on day 15 of pregnancy. On day 14 of pregnancy, a pellet of melatonin (25 mg) had been subcutaneously implanted into a group of animals. In the absence of melatonin, a 100% incidence of preterm birth was observed in LPS‐treated animals, and the fetuses showed widespread damage. By comparison, treatment with melatonin prevented preterm birth in 50% of the cases, and all pups from melatonin‐treated females were born alive and their body weight did not differ from control animals. Melatonin significantly prevented the LPS‐induced rises in uterine prostaglandin (PG) E₂, PGF_2α, and cyclooxygenase‐2 protein levels. In addition, melatonin prevented the LPS‐induced increase in uterine nitric oxide (NO) production, inducible NO synthase protein, and tumor necrosis factor‐alpha (TNFα) levels. Collectively, our results suggest that melatonin could be a new therapeutic tool to prevent preterm labor and to increase offspring survival.     

Ascaris suum infection modulates inflammation: Implication of CD4+ CD25high Foxp3+ T cells and IL‐10

Helminth infections have the ability to modulate host's immune response through mechanisms that allow the chronic persistence of the worms in the host. Here, we investigated the mechanisms involved on the suppressive effect of Ascaris suum infection using a murine experimental model of LPS‐induced inflammation. We found that infection with A. suum markedly inhibited leucocyte influx induced by LPS into air pouches, suppressed secretion of pro‐inflammatory cytokines (IL‐1β, TNF‐α and IL‐6) and induced high levels of IL‐10 and TGF‐β. Augmented frequency of CD4⁺ CD25^high Foxp3⁺ T cells was observed in the mesenteric lymph nodes of infected mice. Adoptive transfer of purified CD4⁺ CD25⁺ T cells to recipient uninfected mice demonstrated that these cells were able to induce a suppressive effect in the LPS‐induced inflammation in air pouch model. In addition, adoptive transfer of CD4⁺ CD25⁺ T cells derived from IL‐10 knockout mice suggests that this suppressive effect of A. suum infection involves IL‐10 cytokine. In conclusion, our results demonstrated that A. suum experimental infection was capable of suppressing LPS‐induced inflammation by mechanisms, which seem to be dependent on responses of CD4⁺ CD25⁺ T cells and secretion of IL‐10 cytokine.     

Analysis of iron superoxide dismutase‐encoding DNA vaccine on the evolution of the Leishmania amazonensis experimental infection

The present work aimed to evaluate the immunogenicity of Leishmania amazonensis iron superoxide dismutase (SOD)‐encoding DNA experimental vaccine and the protective properties of this DNA vaccine during infection. The SOD gene was subcloned into the pVAX1 plasmid, and it was used to immunize BALB/c mice. Twenty‐one days after the last immunization, mice were sacrificed (immunogenicity studies) or subcutaneously challenged with L. amazonensis (studies of protection), and alterations in cellular and humoral immune responses were evaluated, as well as the course of infection. Mice only immunized with pVAX1‐SOD presented increased frequencies of CD4⁺IFN‐γ⁺, CD8⁺IFN‐γ⁺ and CD8⁺IL‐4⁺ lymphocytes; moreover, high levels of IgG2a were detected. After challenge, mice that were immunized with pVAX1‐SOD had increased frequencies of the CD4⁺IL‐4⁺, CD8⁺IFN‐γ⁺ and CD8⁺IL‐4⁺ T lymphocytes. In addition, the lymph node cells produced high amounts of IFN‐γ and IL‐4 cytokines. Increased IgG2a was also detected. The pattern of immunity induced by pVAX1‐SOD partially protected the BALB/c mice from a challenge with L. amazonensis, as the animals presented reduced parasitism and lesion size when compared to controls. Taken together, these results indicate that leishmanial SOD modulates the lymphocyte response, and that the elevation in IFN‐γ possibly accounted for the decreased skin parasitism observed in immunized animals.     

Increased susceptibility to oral Trichuris muris infection in the specific absence of CXCR5+ CD11c+ cells

Trichuris muris is a natural mouse helminth pathogen which establishes infection specifically in the caecum and proximal colon. The rapid expulsion of T. muris in resistant mouse strains is associated with the induction of a protective T helper cell type 2 (Th2)‐polarized immune response. Susceptible mouse strains, in contrast, mount an inappropriate Th1 response to T. muris infection. Expression of the chemokine CXCL13 by stromal follicular dendritic cells attracts CXCR5‐expressing cells towards the B‐cell follicles. Previous studies using a complex in vivo depletion model have suggested that CXCR5‐expressing conventional dendritic cells (cDC) help regulate the induction of Th2‐polarized responses. Here, transgenic mice with CXCR5 deficiency specifically restricted to CD11c⁺ cells were used to determine whether the specific absence CXCR5 on CD11c⁺ cells such as cDC would influence susceptibility to oral T. muris infection by affecting the Th1/Th2 balance. We show that in contrast to control mice, those which lacked CXCR5 expression on CD11c⁺ cells failed to clear T. muris infection and developed cytokine and antibody responses that suggested a disturbed Th1/Th2 balance with enhanced IFN‐γ expression. These data suggest an important role of CXCR5‐expressing CD11c⁺ cells such as cDC in immunity to oral T. muris infection.     

Melatonin inhibits cholangiocarcinoma and reduces liver injury in Opisthorchis viverrini‐infected and N‐nitrosodimethylamine‐treated hamsters

The human liver fluke Opisthorchis viverrini infection and N‐nitrosodimethylamine (NDMA) administration induce cholangiocarcinoma (CCA) and liver injury in hamsters. Melatonin protects against liver injury and reduces the alteration of mitochondrial structure, mitochondrial membrane potential, and mitochondrial pro‐ and anti‐apoptotic pathways in various cancer types. To investigate the chemopreventive effect of melatonin on CCA genesis and liver injury, hamsters were treated with a combination of O. viverrini infection and NDMA concurrently administered with melatonin (10 mg/kg and 50 mg/kg) for 120 days. Melatonin treatment at 50 mg/kg caused a significant reduction in liver/body weight ratios and decreased tumor volumes leading to an increase in the survival of animals. In the tumorous tissues, the high‐dose melatonin reduced DNA fragmentation and mitochondrial apoptosis by inducing anti‐apoptotic protein (Bcl‐2) in the mitochondrial fraction and down‐regulating cytochrome c, pro‐apoptotic protein (Bax), and caspase‐3 in tumor cytosol. Moreover, a high‐dose melatonin treatment significantly increased mitochondrial antioxidant enzymes and prevented mitochondrial ultrastructure changes in the tumor. Overall, melatonin has potent chemopreventive effects in inhibiting CCA genesis and also reduces liver injury in hamster CCA, which, in part, might involve in the suppression of CCA by reducing tumor mitochondria alteration.     

Melatonin alleviates weanling stress in mice: Involvement of intestinal microbiota

Melatonin influences intestinal microbiota and the pathogenesis of various diseases. This study was conducted to explore whether melatonin alleviates weanling stress through intestinal microbiota in a weanling mouse model. Melatonin supplementation in weanling mice (provided in the drinking water at a dosage of 0.2 mg/mL for 2 weeks) significantly improved body weight gain (1.4 ± 0.03 g/day in melatonin group vs 1.2 ± 0.06 g/day in control group) and intestinal morphology (ie, villus length, crypt depth, and villus to crypt ratio), but had little effect on the proliferation or apoptosis of intestinal cells, the numbers of Paneth cells and goblet cells, as well as the expression of makers related to enterocytes (sucrase) and endocrine cells (chromogranin A and peptide YY) in the ileum. Melatonin supplementation had little effect on serum levels of amino acids or stress‐related parameters (eg, SOD, TNF‐α, and angiotensin I). 16S rRNA sequencing suggested that melatonin supplementation increased the richness indices of intestinal microbiota (observed species, Chao 1, and ACE) and shaped the composition of intestinal microbiota (eg, increase in the abundance of Lactobacillus [19 ± 3% in melatonin group vs 6 ± 2% in control group]), which was demonstrated using an ex vivo proliferation assay and colonic loop proliferation assay. Melatonin supplementation also significantly influenced the metabolism of intestinal microbiota, such as amino acid metabolism and drug metabolism. More importantly, in antibiotic‐treated weanling mice and germ‐free weanling mice, melatonin failed to affect body weight gain or intestinal morphology. Melatonin significantly reduced (by about 60%) the bacterial load in enterotoxigenic Escherichia coli (ETEC)‐infected weanling mice, but had little effect on ETEC load in antibiotic‐pretreated animals. In conclusion, melatonin affects body weight gain, intestinal morphology, and intestinal ETEC infection through intestinal microbiota in weanling mice. The findings highlight the importance of intestinal microbiota in mediating the various physiological functions of melatonin in the host.     

Melatonin improves cerebrovascular function and decreases oxidative stress in chronically hypoxic lambs

Chronic hypoxia during gestation and delivery results in oxidative stress and cerebrovascular dysfunction in the neonate. We assessed whether melatonin, a potent antioxidant and potential vasodilator, improves the cerebral vascular function in chronically hypoxic neonatal lambs gestated and born in the highlands (3600 m). Six lambs received melatonin (1 mg/kg per day oral) and six received vehicle, once a day for 8 days. During treatment, biometry and hemodynamic variables were recorded. After treatment, lambs were submitted to a graded FiO₂ protocol to assess cardiovascular responses to oxygenation changes. At 12 days old, middle cerebral arteries (MCA) were collected for vascular reactivity, morphostructural, and immunostaining evaluation. Melatonin increased fractional growth at the beginning and improved carotid blood flow at all arterial PO₂ levels by the end of the treatment (P < 0.05). Further, melatonin treatment improved vascular responses to potassium, serotonin, methacholine, and melatonin itself (P < 0.05). In addition, melatonin enhanced the endothelial response via nitric oxide‐independent mechanisms in isolated arteries (162 ± 26 versus 266 ± 34 AUC, P < 0.05). Finally, nitrotyrosine staining as an oxidative stress marker decreased in the MCA media layer of melatonin‐treated animals (0.01357 ± 0.00089 versus 0.00837 ± 0.00164 pixels/μm², P < 0.05). All the melatonin‐induced changes were associated with no systemic cardiovascular alterations in vivo. In conclusion, oral treatment with melatonin modulates cerebral vascular function, resulting in a better cerebral perfusion and reduced oxidative stress in the neonatal period in chronically hypoxic lambs. Melatonin is a potential therapeutic agent for treating cerebrovascular dysfunction associated with oxidative stress and developmental hypoxia in neonates.     

Melatonin regulates the activities of ovary and delays the fertility decline in female animals via MT1/AMPK pathway

Female fertility irreversibly declines with aging, and this is primarily associated with the decreased quality and quantity of oocytes. To evaluate whether a long‐term of melatonin treatment would improve the fertility of aged mice, different concentrations of melatonin (10^?3, 10^?5, 10^?7 mol/L) were supplemented into drinking water. Melatonin treatments improved the litter sizes of mice at the age of 24 weeks. Mice treated with 10^?5 mol/L melatonin had the largest litter size among other concentrations. At this optimal concentration, melatonin not only significantly increased the total number of oocytes but also their quality, having more oocytes with normal morphology that could generate more blastocyst after in vitro fertilization in melatonin (10^?5 mol/L)‐treated group than that in the controls. When these blastocysts were transferred to recipients, the litter size was also significantly larger in melatonin treated mice than that in controls. The increases in TAOC and SOD level and decreases in MDA were detected in ovaries and uterus from melatonin‐treated mice compared to the controls. Melatonin reduced ROS level and maintained mitochondrial membrane potential in the oocytes cultured in vitro. Mechanistically studies revealed that the beneficial effects of melatonin on oocytes were mediated by MT1 receptor and AMPK pathway. Thereafter, MT1 knocking out (MT1‐KO) were generated and shown significantly reduced number of oocytes and litter size. The expression of SIRT1, C‐myc, and CHOP were downregulated in the ovary of MT1‐KO mice, but SIRT1 and p‐NF‐kB protein level were elevated in response to disturbed redox balance. The results have convincingly proven that melatonin administration delays ovary aging and improves fertility in mice via MT1/AMPK pathway.     

Oral anti‐CD3 immunotherapy for HCV‐nonresponders is safe,promotes regulatory T cells and decreases viral load and liver enzyme levels: results of a phase‐2a placebo‐controlled trial

Orally administered anti‐CD3 antibodies are biologically active in the gut through induction of regulatory T cells, exert an immune‐modulatory effect, and alleviate insulin resistance and liver damage in patients with NASH. Aims: To determine the safety of oral anti‐CD3 monoclonal antibody (MAb) immunotherapy in chronic HCV patients with associated immune dysfunction. Methods: Four groups (n = 9) of chronic HCV patients who were nonresponders to interferon plus ribavirin therapy received oral placebo (group A) or anti‐CD3 MAb at one of three dosage levels for 30 days. Patients were followed for safety parameters and serum levels of liver enzymes, virus, cytokines and regulatory T cells. Results: Oral anti‐CD3 immunotherapy was safe and well tolerated; no treatment‐related adverse events were noted. The following improvements were noted relative to pretreatment levels: HCV viral load and AST and ALT levels decreased in the low‐ and high‐dose groups following 30 days of therapy. In two of the treated groups, an increase in regulatory T cells (CD4⁺ CD25⁺) was noted. The positive effects were somewhat more apparent in subjects with initially elevated liver enzyme levels. Conclusions: Oral anti‐CD3 MAb immunotherapy for nonresponder HCV patients was safe and well tolerated. Trends and statistically significant improvements were observed as reductions in viral load and liver enzyme levels, along with an increase in regulatory T‐cell levels. These data support a role for the immune system in the pathogenesis of HCV infection and suggest that this immunotherapy is worthy of evaluation in combination with HCV antiviral drugs.     

Evaluation of the immunomodulatory effect of melatonin on the T‐cell response in peripheral blood from systemic lupus erythematosus patients

Systemic lupus erythematosus (SLE) is an autoimmune disorder characterized by the production of antinuclear autoantibodies. In addition, the involvement of CD4+ T‐helper (Th) cells in SLE has become increasingly evident. Although the role of melatonin has been tested in some experimental models of lupus with inconclusive results, there are no studies evaluating the melatonin effect on cells from patients with SLE. Therefore, the aim of this study was to analyse the role of in vitro administered melatonin in the immune response of peripheral leukocytes from treated patients with SLE (n = 20) and age‐ and sex‐matched healthy controls. Melatonin was tested for its effect on the production of key Th1, Th2, Th9, Th17 and innate cytokines. The frequency of T regulatory (Treg) cells and the expression of FOXP3 and BAFF were also explored. Our results are the first to show that melatonin decreased the production of IL‐5 and to describe the novel role of melatonin in IL‐9 production by human circulating cells. Additionally, we highlighted a two‐faceted melatonin effect. Although it acted as a prototypical anti‐inflammatory compound, reducing exacerbated Th1 and innate responses in PHA‐stimulated cells from healthy subjects, it caused the opposite actions in immune‐depressed cells from patients with SLE. Melatonin also increased the number of Treg cells expressing FOXP3 and offset BAFF overexpression in SLE patient cells. These findings open a new field of research in lupus that could lead to the use of melatonin as treatment or cotreatment for SLE.     

Oxidation of melatonin by taurine chloramine

Abstract: Melatonin is widely known for its antioxidant, immunomodulatory, and anti‐inflammatory effects. Hypochlorous acid (HOCl) is one example of an endogenous oxidant that is promptly neutralized by melatonin. Melatonin also inhibits myeloperoxidase, the enzyme that catalyzes the oxidation of chloride to HOCl. Taurine is the most abundant free amino acid in leukocytes. In activated neutrophils, taurine is converted to taurine chloramine (Tau‐NHCl) through a reaction with HOCl. In addition, the related compound taurine bromamine (Tau‐NHBr) can be released by neutrophils and eosinophils. The aim of this study was to investigate the reactivity of Tau‐NHCl and Tau‐NHBr with melatonin. We found that melatonin can react with either Tau‐NHCl or Tau‐NHBr, leading to the production of 2‐hydroxymelatonin and N¹‐acetyl‐N²‐formyl‐5‐methoxykynuramine (AFMK). The reaction was pH‐dependent, and it occurs more rapidly at a slightly acidic pH. Tau‐NHBr was significantly more reactive than Tau‐NHCl. Using Tau‐NHBr as the oxidizing agent, 1 mm melatonin was oxidized in less than 1 min. The pH dependence of the reaction with Tau‐NHCl and the increased reactivity of Tau‐NHBr can be explained by a mechanism based on the initial attack of chloronium (Cl⁺) or bromonium (Br⁺) ions on melatonin. We also found that the addition of iodide to the reaction medium increased the yield of AFMK. These findings could contribute to the establishment of new functions for melatonin in inflammatory and parasitic diseases, where the role of this indoleamine has been extensively investigated.     

Melatonin induces browning of inguinal white adipose tissue in Zucker diabetic fatty rats

Melatonin limits obesity in rodents without affecting food intake and activity, suggesting a thermogenic effect. Identification of brown fat (beige/brite) in white adipose tissue (WAT) prompted us to investigate whether melatonin is a brown‐fat inducer. We used Zücker diabetic fatty (ZDF) rats, a model of obesity‐related type 2 diabetes and a strain in which melatonin reduces obesity and improves their metabolic profiles. At 5 wk of age, ZDF rats and lean littermates (ZL) were subdivided into two groups, each composed of four rats: control and those treated with oral melatonin in the drinking water (10 mg/kg/day) for 6 wk. Melatonin induced browning of inguinal WAT in both ZDF and ZL rats. Hematoxylin–eosin staining showed patches of brown‐like adipocytes in inguinal WAT in ZDF rats and also increased the amounts in ZL animals. Inguinal skin temperature was similar in untreated lean and obese rats. Melatonin increased inguinal temperature by 1.36 ± 0.02°C in ZL and by 0.55 ± 0.04°C in ZDF rats and sensitized the thermogenic effect of acute cold exposure in both groups. Melatonin increased the amounts of thermogenic proteins, uncoupling protein 1 (UCP1) (by ~2‐fold, P < 0.01) and PGC‐1α (by 25%, P < 0.05) in extracts from beige inguinal areas in ZL rats. Melatonin also induced measurable amounts of UCP1 and stimulated by ~2‐fold the levels of PGC‐1α in ZDF animals. Locomotor activity and circulating irisin levels were not affected by melatonin. These results demonstrate that chronic oral melatonin drives WAT into a brown‐fat‐like function in ZDF rats. This may contribute to melatonin′s control of body weight and its metabolic benefits.     

Melatonin improves mitochondrial function in inguinal white adipose tissue of Zücker diabetic fatty rats

Mitochondrial dysfunction in adipose tissue may contribute to obesity‐related metabolic derangements such as type 2 diabetes mellitus (T2DM). Because mitochondria are a target for melatonin action, the goal of this study was to investigate the effects of melatonin on mitochondrial function in white (WAT) and beige inguinal adipose tissue of Zücker diabetic fatty (ZDF) rats, a model of obesity‐related T2DM. In this experimental model, melatonin reduces obesity and improves the metabolic profile. At 6 wk of age, ZDF rats and lean littermates (ZL) were subdivided into two groups, each composed of four rats: control (C‐ZDF and C‐ZL) and treated with oral melatonin in the drinking water (10 mg/kg/day) for 6 wk (M‐ZDF and M‐ZL). After the treatment period, animals were sacrificed, tissues dissected, and mitochondrial function assessed in isolated organelles. Melatonin increased the respiratory control ratio (RCR) in mitochondria from white fat of both lean (by 26.5%, P < 0.01) and obese (by 34.5%, P < 0.01) rats mainly through a reduction of proton leaking component of respiration (state 4) (28% decrease in ZL, P < 0.01 and 35% in ZDF, P < 0.01). However, melatonin treatment lowered the RCR in beige mitochondria of both lean (by 7%, P < 0.05) and obese (by 13%, P < 0.05) rats by maintaining high rates of uncoupled respiration. Melatonin also lowered mitochondrial oxidative status by reducing nitrite levels and by increasing superoxide dismutase activity. Moreover, melatonin treatment also caused a profound inhibition of Ca‐induced opening of mPTP in isolated mitochondria from both types of fat, white and beige, in both lean and obese rats. These results demonstrate that chronic oral melatonin improves mitochondrial respiration and reduces the oxidative status and susceptibility to apoptosis in white and beige adipocytes. These melatonin effects help to prevent mitochondrial dysfunction and thereby to improve obesity‐related metabolic disorders such as diabetes and dyslipidemia of ZDF rats.     

Infection with phytopathogenic bacterium inhibits melatonin biosynthesis,decreases longevity of its vector,and suppresses the free radical‐defense

Vector‐borne phytopathogenic bacteria may alter the reproductive fitness, survival, behavior, and metabolism of their vectors. Candidatus Liberibacter asiaticus (CLas) is associated with the Huanglongbing (also known as citrus greening disease), one of the most destructive citrus diseases worldwide, and transmitted by Asian citrus psyllid, Diaphorina citri (Insecta, Hemiptera, Liviidae). The genome sequencing of CLas revealed that it does not have the ability to synthesize tryptophan, the precursor of melatonin, and it must acquire it from its host plant or insect vector to achieve its biologic processes, such as growth and multiplication. Herein, we aimed to develop a GC‐MS‐SIM‐based method to detect the endogenous melatonin from small insects such as D. citri, and to explore the hidden relationship between melatonin content and D. citri‐adult survival. Then, we studied the ability of exogenous melatonin supplementation to reverse the negative effects of CLas‐infection. Our findings showed that CLas‐infection reduced the levels of melatonin and its biosynthetic genes (DcTPHs, DcAAAD, DcSNAT, and DcASMT) of D. citri compared to uninfected insects. In addition, CLas decreased the longevity of its vector, D. citri via the suppression of the free radical‐defense associated genes (SODs, GSTs, PODs, and PHGPXs). On the other hand, melatonin supplementation could reverse the negative effects of CLas‐infection. Melatonin supplementation enhanced the endogenous melatonin content, melatonin biosynthetic genes, free radical‐defense associated genes, and the longevity of both healthy and CLas‐infected D. citri. Furthermore, melatonin supplementation decreased the CLas bacterial population within the D. citri psyllids. Based on these findings, we hypothesize that melatonin plays multi‐layered defensive roles in D. citri. These roles include acting as a natural antioxidant or as an antibacterial compound.     

Immune response of γδT cells in Schistosome japonicum–infected C57BL/6 mouse liver

Systematic evaluation of the role of γδT cells during the Schistosoma japonicum infection has not been reported, despite the fact that γδT cells contribute to many infectious diseases in innate immunity. Therefore, the aim of this study was to observe the properties of γδT cells in the liver of C57BL/6 mice infected by S. japonicum. In this report, using immuno‐fluorescent histological analysis, γδT cells were found around hepatic granulomatous. Moreover, the flow cytometry results revealed that the percentage of hepatic γδT cells increased significantly after S. japonicum infection. More interestingly, a subset of CD3^?γδTCR⁺ cells were found and markedly increased after infection. Furthermore, expression of activation markers (CD25 and CD69) and cytokine profiles were detected in these hepatic CD3⁺γδTCR⁺and CD3^?γδTCR⁺ cells. The significantly higher level of CD69, IL‐4 and IL‐17 were observed in CD3⁺γδTCR⁺ cells after infection, suggesting that CD3⁺γδTCR⁺ cells instead of CD3^?γδTCR⁺ cells might play a predominant role during the infection. Finally, our results indicated that the expression of NKG2D on CD3⁺γδTCR⁺ cells was higher than that on CD3^?γδTCR⁺ cells. Collectively, γδT cells could play an important role in the liver of C57BL/6 mouse during japonicum infection.