罗伊乳杆菌对小鼠血清细胞因子含量和肠道菌群的影响

目的 探讨罗伊乳杆菌对小鼠免疫力及肠道菌群的影响。方法 将50只昆明系小鼠按体重随机分成5组：空白对照组、低剂量组、中剂量组、高剂量组和发酵上清液组。空白对照组灌胃等量生理盐水,其余各组分别灌胃罗伊乳杆菌菌液及发酵液上清21 d后,眼球取血收集血清,采用ELISA法检测IL-2、IFN-γ、IgA和IgG含量;采用16S rRNA基因高通量测序分析小鼠肠道菌群变化。结果 与对照组相比,其余各组小鼠血清IL-2、IFN-γ、IgA和IgG的水平均明显升高,粪便菌群丰度有所增高,多样性降低。与对照组相比,低剂量组和中剂量组小鼠粪便菌群结构无显著差异,而高剂量组和发酵上清液组小鼠粪便菌群结构差异显著。结论 罗伊乳杆菌可以增强小鼠免疫力,提高菌群丰度,改变小鼠肠道菌群结构。     

Interrelationships between zinc and immune function

Zinc deficiency is a common nutritional problem observed both in human and in animal populations that has profound effects on host defense mechanisms. Using the young adult mouse as a model, it has been demonstrated that a moderate period of suboptimal zinc causes thymic atrophy, lymphopenia, and alterations in the proportions of the various subsets of lymphocytes and mononuclear phagocytes. As a result, antibody-mediated responses to both T cell-dependent and T cell independent antigens are significantly reduced. Cytolytic T cell responses, natural killer (NK) cell activity, and delayed-type hypersensitivity (DTH) reactions are also depressed. Suboptimal zinc during in utero development of mice causes persistent states of immunodeficiency in the offspring that can even be transferred to subsequent generations. In regard to human immunological consequences of zinc deficiency, patients with the genetic disorder of zinc absorption, acrodermatitis enteropathica, also exhibit atrophic thymuses, lymphopenia, anergic DTH responses, and reduced NK cell activity. Patients suffering from sickle cell anemia or uremia with associated deficiencies in zinc exhibit similar immune deficiencies. An additional outcome of these studies has been shown to be an essential cofactor for thymulin, one of the thymic hormones. Furthermore, addition of zinc salts to culture can polyclonally activate lymphocytes as well as augment responses to mitogens in adjuvant-like manner.     

Short-term nutrient deprivation affects immune function

Abstract Measurement of insect immune effector system function aimed at identifying costs has largely been stimulated by the ideas of Hamilton & Zuk (1982) , who proposed that choosy females may derive some genetic benefit from selecting parasite-resistant males. Field studies of such systems assume that most variation in measured immune traits is affected strongly by genes and pay little attention subsequently to the role of nutritional status in determining the magnitude of assayed immune effector systems. In this paper the effects of nutrient deprivation on immune function are measured in the mealworm beetle ( Tenebrio molitor L.) reared in otherwise ideal conditions. The results suggest that immune effector system function is down-regulated during short-term nutritional deprivation, but is rapidly up-regulated to pre-deprivation levels after animals are allowed access to food. This rapid modulation of immune function in the context of nutritional status has important implications for measuring immune function in the field, as well as the interpretation of those measures.     

广叶绣球菌多糖对免疫低下小鼠肠道免疫功能的调节作用

通过研究广叶绣球菌多糖对免疫低下小鼠肠道菌群、细胞因子表达量及短链脂肪酸的影响,探究广叶绣球菌多糖的免疫作用机制。腹腔注射环磷酰胺构建免疫低下小鼠模型,将小鼠分为6组：正常对照组、模型组、广叶绣球菌多糖低、中、高剂量组以及阳性对照组,连续饲养30d后处死取样,HE染色观察小肠组织结构,酶联免疫吸附法测定小肠白细胞介素-6（IL-6）、IL-10、肿瘤坏死因子-α（TNF-α）、干扰素-γ（IFN-γ）的表达水平,高通量测序技术分析小鼠肠道菌群的变化,气-质联用（GC-MS）技术分析盲肠内容物短链脂肪酸（SCFAs）的含量。结果表明,广叶绣球菌多糖高剂量组可显著改善绒毛肿胀和变短现象,提高绒毛长度/隐窝深度的比值（V/C值）和小肠IL-6、IL-10、TNF-α、IFN-γ细胞因子含量（P<0.05或P<0.01）,提高拟杆菌属Bacteroides、拟普雷沃菌属Alloprevotella、丁酸弧菌属Butyrivibrio、Intestinimonas、链球菌属Streptococcus的相对丰度（P<0.05或P<0.01）;各剂量组均可提高盲肠内6种主要短链脂肪酸含量,差异达显著或极显著水平（P<0.05或P<0.01）。试验组与阳性对照组趋势一致。广叶绣球菌多糖可通过改善免疫低下小鼠的肠道粘膜形态,提高小肠细胞因子水平,调节肠道菌群结构,增加SCFAs产生菌的相对丰度,提高短链脂肪酸含量,调节免疫低下小鼠的肠道免疫功能。     

Lifelong calorie restriction affects indicators of colonic health in aging C57Bl/6J mice

Diminished colonic health is associated with various age-related pathologies. Calorie restriction (CR) is an effective strategy to increase healthy lifespan, although underlying mechanisms are not fully elucidated. Here, we report the effects of lifelong CR on indicators of colonic health in aging C57Bl/6J mice. Compared to an ad libitum control and moderate-fat diet, 30% energy reduction was associated with attenuated immune- and inflammation-related gene expression in the colon. Furthermore, expression of genes involved in lipid metabolism was higher upon CR, which may point towards efficient regulation of energy metabolism. The relative abundance of bacteria considered beneficial to colonic health, such as Bifidobacterium and Lactobacillus, increased in the mice exposed to CR for 28 months as compared to the other diet groups. We found lower plasma levels of interleukin-6 and lower levels of various metabolites, among which are bile acids, in the colonic luminal content of CR-exposed mice as compared to the other diet groups. Switching from CR to an ad libitum moderate-fat diet at old age (24 months) revealed remarkable phenotypic plasticity in terms of gene expression, microbiota composition and metabolite levels, although expression of a subset of genes remained CR-associated. This study demonstrated in a comprehensive way that CR affects indicators of colonic health in aging mice. Our findings provide unique leads for further studies that need to address optimal and feasible strategies for prolonged energy deprivation, which may contribute to healthy aging.     

阿如拉7味散对肠道菌群失调小鼠免疫功能及肠道菌群多样性的影响

目的 研究阿如拉7味散对抗生素诱导肠道菌群失调小鼠的免疫功能和肠道菌群多样性的影响。 方法 选取50只清洁级昆明小鼠,分为正常对照组、自然恢复组、阳性对照组、阿如拉7味散低剂量组(0.5 g/mL)和阿如拉7味散高剂量组(1.0 g/mL)。将所有小鼠用头孢曲松钠和盐酸林可霉素混合药液灌胃制备肠道菌群失调模型,第8天起各组小鼠相应药物连续治疗7 d,实验结束时进行样品采集。采集血清和回肠组织,采用ELISA法检测血清中的IgG、IFNγ和TNFα含量以及回肠组织中的sIgA含量;采集盲肠内容物,采用高通量测序技术检测肠道菌群多样性;采集胸腺和脾脏,测定免疫器官指数。 结果 阿如拉7味散低、高剂量可显著提高抗生素诱导肠道菌群失调小鼠的脾脏指数(P0.05)和血清IgG含量(P>0.05)无显著影响。各用药组与自然恢复组相比,尤其阿如拉7味散低剂量组,小鼠肠道菌群丰富度和多样性明显升高。 结论 阿如拉7味散对抗生素诱导肠道菌群失调小鼠具有提高免疫器官指数、增强肠道免疫功能和改善肠道菌群的作用。     

The Znt4 mutation inlethal milk mice affects intestinal zinc homeostasis through the expression of other Zn transporters

The lethal milk mouse syndrome is caused by a point mutation in the zinc transporter gene ZnT4 resulting in defective zinc secretion in the milk of homozygous mutant dams. Pups of any genotype fed solely on lm milk die within the first two weeks of neonatal life, displaying zinc deficiency symptoms. Homozygous mutant pups survive when foster nursed by wild type dams and show signs of mild zinc deficiency in adulthood. To further investigate the role of ZnT4 in zinc secretion in the intestinal epithelium, we have studied the expression by real time quantitative PCR of mutant ZnT4 and of other zinc transporters of the Zip and ZnT families, in the jejunum of homozygous lm mice and of the isogenic wild type strain C57BL/ 6J. We report in this paper that expression of the mutant ZnT4 mRNA, carrying a premature translational termination codon (ZnT4/lm), is almost absent in tissues from lm mice, probably as a result of degradation by the Nonsense Mediated mRNA Decay (NMD) Pathway. In the jejunum of mutant mice, we also observed decreased expression of the uptake zinc transporter Zip4, paralleled by increased levels of both metallothionein genes MTI and MTII. Zinc supplementation of lm mice in the drinking water did not result in further decrease of Zip4 expression, but led to full induction of MT mRNAs. These results lead us to conclude that, although in the enterocytes of lm mice the absence of the zinc secretion activity mediated by ZnT4 results in increased intracellular zinc concentration, other zinc efflux activities are able to maintain the level of zinc ions below the threshold necessary for full induction of metallothioneins.     

Regulation of immune function by calorie restriction and cyclophosphamide treatment in lupus-prone NZB/NZW F1 mice

We compared the effects of calorie restriction (CR) and cyclophosphamide (CTX) on the progression of lupus nephritis and immunological changes in NZB/NZW F1 mice. Ad libitum (AL)/CTX and CR delayed onset of proteinuria and significantly decreased serum levels of anti-dsDNA, anti-histone, and circulating immune complex antibodies. CTX and CR prevented the increase in and activation of B cells, the decline in CD8(+) T cells, and maintained a higher proportion of na?ve CD4(+) and CD8(+) cells. MHC class I antigen and LFA-1 expression on CD8(+) T cells and MHC class II antigen on B cells were also decreased. AL/CTX and CR prevented the increase in production of IL-10 and up-regulated IL-2 production in T cells ex vivo. We concluded that both CR and CTX can delay the onset of autoimmune disease, in part by maintaining higher numbers of na?ve T cells and the immune responsiveness of T cells and decreasing the proportion of B cells.     

Moderate zinc deficiency negatively affects biomechanical properties of rat tibiae independently of body composition

To guide development of novel nutritional strategies aimed at reducing the incidence of stress fractures, we observed the effects of manipulating dietary zinc (Zn) content on bone integrity in Sprague–Dawley rats fed either a severely Zn-deficient (ZnD; 1 ppm), a moderately Zn-deficient (MZnD; 5 ppm) or a Zn-adequate (ZnAD; 30 ppm) diet for 6 weeks. At the completion of the diet period, body composition, bone mineral content (BMC), bone area (BA) and bone mineral density (BMD) were determined in vivo by using dual-energy X-ray absorptiometry. Following euthanasia, long bones were collected for determination of Zn content and biomechanical strength testing. Despite significant positive correlations between dietary Zn and both body weight (BW) and bone Zn content for the entire cohort (r=.77 and r=.83, respectively), rats fed MZnD or ZnAD diets did not differ in feed intakes, body composition, BMC, BA, BMD or BW. Tibial bones, but not femur bones, appear to be more responsive to dietary Zn manipulation, as all bone biomechanical strength indices in the ZnAD-fed rats were significantly greater than in rats fed the ZnD diets. Rats fed either MZnD or ZnAD diets had stronger tibiae (129% increase in maximum load and stress at maximum load, P<.01) compared with those fed ZnD diets. The load at breakage for the tibial bones of rats fed MZnD diets was not different from the ZnD rats, but lower (P<.05) than that of the ZnAD rats. These results suggest that since feed intakes, body composition, BMC, BA, BMD and BW were not significantly different between the MZnD- and ZnAD-fed animals, the reduced bone integrity observed in the MZnD-fed rats resulted from dietary Zn inadequacy, and not as a result of the reduced growth that is typically associated with Zn deficiency.     

Dietary zinc restriction promotes degeneration of the endocrine pancreas in mice

Zinc is a key component of several proteins, interacting with the pancreatic hormones insulin and amylin. The role of zinc in insulin oligomerization and crystallinity is well established, although the effects of dietary zinc restriction on both energetic metabolism and β-pancreatic hormonemia and morphology remain unexplored. Here we report the effects of dietary zinc restriction on the endocrine pancreas and metabolic phenotype of mice. Nontransgenic male Swiss mice were fed a low-zinc or control diet for 4 weeks after weanling. Growth, glycemia, insulinemia and amylinemia were lower and pancreatic islets were smaller in the intervention group despite the preserved insulin crystallinity in secretory granules. We found strong immunostaining for insulin, amylin and oligomers in apoptotic pancreatic islet. High production of β-pancreatic hormones in zinc-restricted animals counteracted the reduced islet size caused by apoptosis. These data suggest that zinc deficiency is sufficient to promote islet β-cell hormonal disruption and degeneration.     

Tissue zinc dynamics during the immune reaction in mice

Owing to the importance of zinc for the functioning of the immune system, the role of endogenous Zn, located both in lymphoid and nonlymphoid organs, was investigated during the standard humoral and cellular types of immune response. For this purpose, the dynamics of hepatic, thymic, splenic, and renal Zn content was determined in mice sensitized with (a) sheep red blood cells and (b) semiallogeneic lymphocytes during the local host vs graft reaction (HVGR). The data obtained by ion-coupled plasma spectrometry revealed that the humoral type of immunity is characterized by a significant increase of Zn concentration in the liver and in the thymus. Simultaneously, linear regression analysis showed that the generation of plaque-forming cells in the individual mouse was highly positively correlated with Zn concentration in the liver (r = 0.897), and spleen (r = 0.833), and negatively with Zn concentration in the thymus (r = -0.624). Similar relationships between the intensity of local immune reaction and tissue Zn levels were found in local HVGR at the fifth day in the liver and spleen (r = 0.861 andr = 0.695, respectively), at the seventh day in the thymus (r = -0.797), and at the tenth day in the liver (r = -0.859). The data emphasize the necessity of Zn for the development of normal immune response and point to the existence of a Zndependent hepato-thymic axis during the humoral and cellular types of immune reactivity.     

Proteomic analysis of the role of S-nitrosoglutathione reductase in lipopolysaccharide-challenged mice

S-Nitrosoglutathione reductase (GSNOR) is a key regulator of protein S-nitrosylation, the covalent modification of cysteine residues by nitric oxide that can affect activities of many proteins. We recently discovered that excessive S-nitrosylation from GSNOR deficiency in mice under inflammation inactivates the key DNA repair protein O(6) -alkylguanine-DNA alkyltransferase and promotes both spontaneous and carcinogen-induced hepatocellular carcinoma. To explore further the mechanism of tumorigenesis due to GSNOR deficiency, we compared the protein expression profiles in the livers of wild-type and GSNOR-deficient (GSNOR(-/-) ) mice that were challenged with lipopolysaccharide to induce inflammation and expression of inducible nitric oxide synthase (iNOS). Two-dimensional difference gel electrophoresis analysis identified 38 protein spots of significantly increased intensity and 31 protein spots of significantly decreased intensity in the GSNOR(-/-) mice compared to those in the wild-type mice. We subsequently identified 19 upregulated and 19 downregulated proteins in GSNOR(-/-) mice using mass spectrometry. Immunoblot analysis confirmed in GSNOR(-/-) mice a large increase in the expression of the pro-inflammatory mediator S100A9, a protein previously implicated in human liver carcinogenesis. We also found a decrease in the expression of multiple members of the protein disulfide-isomerase (PDI) family and an alteration in the expression pattern of the endoplasmic reticulum (ER) chaperones in GSNOR(-/-) mice. Furthermore, altered expression of these proteins from GSNOR deficiency was prevented in mice lacking both GSNOR and iNOS. In addition, we detected S-nitrosylation of two members of the PDI protein family. These results suggest that S-nitrosylation resulting from GSNOR deficiency may promote carcinogenesis under inflammatory conditions in part through the disruption of inflammatory and ER stress responses.     

Influence of protein restriction on immune functions in NZB mice.

The influence of a low protein (6%) diet on the immunologic function of NZB mice was investigated. The low protein intake was associated with decreased weight gain in both male and female NZB mice. The mice fed the low protein diet did not develop splenomegaly, which generally occurs by 7 to 10 months of age in NZB mice fed a normal amount of protein. Further, 7- to 10-month-old NZB mice fed the low protein(6%) diet, maintained: 1) more vigorous antibody production to sheep red blood cells; 2) greater capacity to produce graft-vs-host reactions, and 3) more vigorous cell-mediated "killer" cell immunity after immunization against DBA/2 mastocytoma cells than did NZB mice on a normal (22%) protein diet. The decrease of PHA and Con A response which normally occurs with aging in NZB mice was abrogated to some degree by protein restriction. However, response to LPS, which also declines with age in NZB mice, did not appear to be influenced by diet.     

A major X-linked locus affects kidney function in mice

Chronic kidney disease is a common disease with increasing prevalence in the western population. One common reason for chronic kidney failure is diabetic nephropathy. Diabetic nephropathy and hyperglycemia are characteristics of the mouse inbred strain KK/HlJ, which is predominantly used as a model for metabolic syndrome due to its inherited glucose intolerance and insulin resistance. We used KK/HlJ, an albuminuria-sensitive strain, and C57BL/6J, an albuminuria-resistant strain, to perform a quantitative trait locus (QTL) cross to identify the genetic basis for chronic kidney failure. Albumin–creatinine ratio (ACR) was measured in 130 F2 male offspring. One significant QTL was identified on chromosome (Chr) X and four suggestive QTL were found on Chrs 6, 7, 12, and 13. Narrowing of the QTL region was focused on the X-linked QTL and performed by incorporating genotype and expression analyses for genes located in the region. From the 485 genes identified in the X-linked QTL region, a few candidate genes were identified using a combination of bioinformatic evidence based on genomic comparison of the parental strains and known function in urine homeostasis. Finally, this study demonstrates the significance of the X chromosome in the genetic determination of albuminuria.     

Mitochondrial function in immune cells in health and disease

One of the main functions of mitochondria is production of ATP for cellular energy needs, however, it becomes more recognized that mitochondria are involved in differentiation and activation processes of immune cells. Upon activation, immune cells have a high need for energy. Immune cells have different strategies to generate this energy. In pro-inflammatory cells, such as activated monocytes and activated T and B cells, the energy is generated by increasing glycolysis, while in regulatory cells, such as regulatory T cells or M2 macrophages, energy is generated by increasing mitochondrial function and beta-oxidation.Except for being important for energy supply during activation, mitochondria also induce immune responses. During an infection, they release mitochondrial danger associated molecules (DAMPs) that resemble structures of bacterial derived pathogen associated molecular patterns (PAMPs). Such mitochondrial DAMPS are for instance mitochondrial DNA with hypomethylated CpG motifs or a specific lipid that is only present in prokaryotic bacteria and mitochondria, i.e. cardiolipin. Via release of such DAMPs, mitochondria guide the immune response towards an inflammatory response against pathogens. This is an important mechanism in early detection of an infection and in stimulating and sustaining immune responses to fight infections. However, mitochondrial DAMPs may also have a negative impact. If mitochondrial DAMPs are released by damaged cells, without the presence of an infection, such as after a trauma, mitochondrial DAMPs may induce an undesired inflammatory response, resulting in tissue damage and organ dysfunction. Thus, immune cells have developed mechanisms to prevent such undesired immune activation by mitochondrial components.In the present narrative review, we will describe the current view of mitochondria in regulation of immune responses. We will also discuss the current knowledge on disturbed mitochondrial function in immune cells in various immunological diseases.     

Effects of dietary zinc depletion and food restriction on intestinal transport of cadmium in the rat

The effects of Zn depletion and short-term fasting on intestinal transport of Cd were examined in perfused rat small intestines. The small intestine was isolated with its vascular network intact, then simultaneously perfused from the luminal and vascular sides. A Zn-depleted state that results in marked hypozincemia was produced in some rats by feeding a Zn-deficient diet for 4 days. Uptake of Cd from the luminal perfusate was greater in the Zn-depleted rats, whereas transport of Cd to the vascular perfusate was not affected. Fasting overnight prior to perfusion did not influence Cd transport nor alter the effect of Zn depletion on Cd uptake. The Cd concentration in the soluble fraction of intestinal mucosa from perfused intestines was not different between Zn-depleted and Zn-adequate rats. Gel filtration chromatography of the soluble fraction showed a shift in the distribution of Cd from metallothionein to high molecular weight ligands in intestines from Zn-depleted rats. The decrease in amount of metallothionein-associated Cd corresponded to a decrease of total intestinal metallothionein as measured by the Cd-binding assay. The results suggest association of Cd with intestinal metallothionein did not influence the absorption of Cd under these conditions.     

Vasoactive intestinal peptide modulates Langerhans cell immune function

Epidermal nerves lie in close proximity to Langerhans cells (LC) and are capable of releasing peptides that modulate LC function, including calcitonin gene-related peptide and pituitary adenylate cyclase-activating polypeptide. The neuropeptide vasoactive intestinal peptide (VIP) has also been found in cutaneous nerves and mRNA, for the VIP receptor vasoactive intestinal peptide receptor type 1, and vasoactive intestinal peptide receptor type 2 have been found in murine LC and the LC-like cell line XS106. We examined the effects of VIP on LC function and cutaneous immunity. VIP inhibited elicitation of a delayed-type hypersensitivity response in previously immunized mice by epidermal cells enriched for LC content pulsed with Ag in vitro. VIP also inhibited the ability of unseparated epidermal cells to present Ag to a T cell clone and hybridoma and the ability of highly enriched LCs to present to the T cell clone. Inhibition of presentation to the hybridoma was observed with an antigenic peptide that does not require processing, suggesting that VIP is active at a step independent of Ag processing. To elucidate the mechanism(s) by which VIP may mediate these effects, we determined the effects of VIP on LC cytokine production using the XS106 cell line as a surrogate for LC. VIP augmented the production of the IL-10 in LPS-stimulated XS106 cells while down-regulating IL-12 and IL-1beta production. Thus, VIP, like pituitary adenylate cyclase-activating polypeptide and calcitonin gene-related peptide, down-regulates LC function and the associated immune response.     

Moderate zinc restriction during fetal and postnatal growth of rats: effects on adult arterial blood pressure and kidney

Intrauterine and postnatal zinc restriction may result in an adverse environment for the development of cardiovascular and renal systems. This study evaluated the effects of moderate zinc deficiency during fetal life, lactation, and/or postweaning growth on systolic blood pressure, renal function, and morphology in adult life. Female Wistar rats received low (8 ppm) or control (30 ppm) zinc diets from the beginning of pregnancy up to weaning. After weaning, male offspring of each group of mothers were fed low or control zinc diet. Systolic blood pressure, creatinine clearance, proteinuria, renal morphology, renal apoptosis. and renal oxidative stress state were evaluated after 60 days. Zinc deficiency during pre- and postweaning growth induced an increase in systolic blood pressure and a decrease in the glomerular filtration rate associated with a reduction in the number and size of nephrons. Activation of renal apoptosis, reduction in catalase activity, glutathione peroxidase activity, and glutathione levels and increase in lipid peroxidation end products could explain these morphometric changes. Zinc deficiency through pre- and postweaning growth induced more pronounced renal alteration than postweaning zinc deficiency. These animals showed signs of renal fibrosis, proteinuria, increased renal apoptosis, and higher lipid peroxidation end products. A control diet during postweaning growth did not totally overcome renal oxidative stress damage, apoptosis, and fibrosis induced by zinc deficiency before weaning. In conclusion, zinc deficiency during a critical period of renal development and maturation could induce functional and morphological alterations that result in elevated blood pressure and renal dysfunction in adult life.