Paneth cells drive intestinal stem cell competition and clonality in aging and calorie restriction

Calorie restriction has been recently shown to increase intestinal stem cell competition and to reduce mutation fixation in young mice. However, the impact of aging on this process is unknown. By employing Confetti reporter mice, here we show that, unexpectedly, old mice have more intestinal stem cell (ISC) competition than young mice. Moreover, differently from what observed in young mice, calorie restriction, when applied at late-life, decreases this process. Importantly, we also observed a strong correlation between the ISC competition and Paneth cell number. In vivo analysis and in vitro organoid experiments indicated that Paneth cells play a major role in driving intestinal stem cell competition and crypt clonality. Taken together, our results provide evidence that increasing the number of Paneth cells can increase the number of competitive ISCs, representing a valuable therapeutic target to delay fixation of mutated intestinal stem cells.     

A small-molecule macrophage migration inhibitory factor antagonist protects against glomerulonephritis in lupus-prone NZB/NZW F1 and MRL/lpr mice

Autoimmunity leads to the activation of innate effector pathways, proinflammatory cytokine production, and end-organ injury. Macrophage migration inhibitory factor (MIF) is an upstream activator of the innate response that mediates the recruitment and retention of monocytes via CD74 and associated chemokine receptors, and it has a role in the maintenance of B lymphocytes. High-expression MIF alleles also are associated with end-organ damage in different autoimmune diseases. We assessed the therapeutic efficacy of (S,R)-3-(4-hydroxyphenyl)-4,5-dihydro-5-isoxazole acetic acid methyl ester (ISO-1), an orally bioavailable MIF antagonist, in two distinct models of systemic lupus erythematosus: the NZB/NZW F1 and the MRL/lpr mouse strains. ISO-1, like anti-MIF, inhibited the interaction between MIF and its receptor, CD74, and in each model of disease, it reduced functional and histological indices of glomerulonephritis, CD74(+) and CXCR4(+) leukocyte recruitment, and proinflammatory cytokine and chemokine expression. Neither autoantibody production nor T and B cell activation were significantly affected, pointing to the specificity of MIF antagonism in reducing excessive proinflammatory responses. These data highlight the feasibility of targeting the MIF-MIF receptor interaction by small-molecule antagonism and support the therapeutic value of downregulating MIF-dependent pathways of tissue damage in systemic lupus erythematosus.     

Abnormal polyclonal B cell activation in NZB/NZW F1 mice

Spleen cells from autoimmune (10-mont-old) NZB/NZW (B/W) mice failed to generate appreciable numbers of antibody-forming cells (AFC) in vitro to TNP-substituted sheep erythrocytes in response to the polyclonal B cell activators (PBA), LPS and PPD, despite normal DNA synthetic responses to these agents and normal AFC responses to TNP-Ficoll. The failure to respond to PBA in old B/W mice was not due to suppressor T cells since anti-brain-associated-theta-treated spleen cells still failed to generate AFC in response to PBA. The defect was age-related since cells from young B/W mice generated vigorous AFC responses to PBA. It is suggested that the failure of the spleen cells of old B/W mice to generate AFC is a result of in vitro polyclonal B cell activation in the course of autoantibody formation.     

Studies of tolerance to DNA in NZB/NZW F1 mice.

Administration of sDNA-poly-D-lysine (DNA-PDL) to newborn NZB/NZW F1 mice (B/W) was previously shown to prolonge survival and to decrease nephritis and DNA antibodies. In this study, B/W mice treated from birth with DNA-PDL were found to be tolerant to immunization with sDNA on PDL or mBSA carriers in adjuvants. Tolerance to sDNA was present and was hapten-specific carrier-dependent. IgG and IgM anti-nDNA circulating antibodies were suppressed. Continuous tolerization was necessary to maintain tolerance. Tolerance to sDNA could be transferred by spleen cells, by tolerized thymus cells, and by tolerized bone marrow cells, suggesting that both T and B cells participated in this phenomenon.     

Dietary fat and immune function. II. Effects on immune complex nephritis in (NZB x NZW)F1 mice

(NZB x NZW)F1 mice initiated on fat restriction at weanling were significantly protected from the development of immune complex glomerulonephritis. Whereas the mice on high-fat intake demonstrated immune depositions both in capillary walls and mesangial areas in a diffuse granular pattern, those on a low-fat diet with caloric content similar to the high-fat diets exhibited mesangial confinement of the depositions of immunoglobulins, complement, and retroviral gp70. In association with these divergent patterns of immune deposition, the mice on high-fat diets had evidence of extensive diffuse cellular proliferation, wire loop lesion, and sclerosis in the glomeruli. In contrast, most of the mice on the low-fat diet showed only mesangial cell and matrix proliferations. In addition, the group of mice fed high saturated fat showed more severe glomerular pathology as compared to those fed high unsaturated fat. Paradoxically, levels of circulating immune complexes (as measured by the polyethylene glycol precipitation technique) in the high saturated fat group were low and did not correlate with the findings by light and immunofluorescence microscopy. These findings suggest that dietary fat restriction can serve as either a prophylactic or effective therapeutic approach to murine lupus nephritis.     

低毒兴奋效应模拟热量限制调节酵母转运体基因表达及脂质代谢

【目的】已知H2O2介导的线粒体低毒兴奋效应(Mitohormesis)能模拟热量限制延长酵母寿命,但未知两者是否存在共同作用机理。【方法】利用依时菌落计数法测定酿酒酵母时序寿命(CLS),采用微阵列芯片分析ATP结合盒(ABC)转运体基因表达谱及脂质代谢模式的转变,通过酶学测定法比较超氧化物歧化酶(SOD)活性的动态变化。【结果】经热量限制、H2O2、青蒿琥酯处理后,酵母CLS有不同程度延长,细胞解毒相关ABC转运体基因表达均下调或不变,促进长链脂肪酸运输的过氧化物酶体膜ABC转运体基因以及加速固醇摄取的质膜ABC转运体基因表达则显著上调。相应地,脂质分解(如脂肪酸β-氧化)基因表达上调,脂质合成(如脂肪酸延伸及去饱和)基因表达则下调。不同处理组中催化线粒体H2O2生成的Mn-SOD活性提高,导致催化H2O2降解及转变的抗氧化酶基因表达上调。【结论】低毒兴奋效应及热量限制在酵母中发挥延寿作用,既有赖于抗氧化酶催化的活性氧(ROS)清除反应,也取决于ABC转运体介导的脂质转运及后续的脂质分解及再利用。     

Regulation of the immune response in autoimmune NZB/NZW F1 mice. I. The spontaneous generation of splenic suppressor cells.

The lymphoproliferative responses of rat peripheral blood lymphocytes to phytohemagglutinin (PHA) were studied following treatment with single or multiple doses of cyclophosphamide. A dose-dependent lymphocytopenia was observed with both regimes. The remaining lymphocytes had decreased responses to PHA. Serum collected 24 hr after a single injection of cyclophosphamide and used at a concentration of 5% enhanced the response of cells from normal or cyclophosphamide-treated rats. Serum collected after a course of treatment did not have this effect, but it lacked the marked suppressive activity, at a concentration of 20%, which was shown by normal rat serum. The enhancing activity was not dialysable. Doses of cyclophosphamide adequate to abolish primary antibody production to sheep erythrocytes did not totally abrogate responsiveness to PHA. Thus, the pattern of immunological defects in cyclophosphamide-treated rats consisted of decreased primary antibody production, lymphocytopenia with a decreased response of the remaining lymphocytes to PHA, and diminution of serum suppressive activity.     

Role of calorie restriction in alleviation of age-related morphological and biochemical changes in sciatic nerve

BackgroundAging is associated with structural, functional and biochemical alterations in the nervous system. Calorie restriction (CR) was found to retard most physiological indices of aging.ObjectivesThis work aimed to investigate the effect of CR on age-related changes in sciatic nerves.Materials and methodsThirty male albino rats aged 1 month were equally divided into three groups; Group I [control adult-ad libitum AL]: fed a regular diet and sacrificed at the age of 6 months, group II (aged-AL group): fed a regular diet AL and sacrificed at the age of 18 months, and group III (aged CR) fed a 40% calorie restricted diet and sacrificed at the age of 18 months. Rats were anesthetized and sciatic nerves were processed for light, electron microscope and morphometric studies. Oxidative stress in sciatic nerves was investigated by estimation of lipid perioxidation by product malondialdehyde (MDA) tissue level and antioxidant enzyme; superoxide dismutase activity (SOD).ResultsThe aged (AL) sciatic nerves appeared disorganized, with thick perineurium and increased collagen fibers associated with decreased g-ratio. Abnormal myelin forms were seen as outfolded myelin loops, thin denuded myelin, splitting of myelin into myelin figures and interlamellar vacuoles. Schwann cells revealed vacuolated cytoplasm. There was also significant increase in MDA level and a significant decrease in SOD activity in comparison to control adult (AL). Apparent structural and histomorphological improvement were noticed after CR in aged rats.ConclusionAging caused structural and biochemical alterations in sciatic nerves with alleviating effect of calorie restriction on such effects.     

V region sequences of anti-DNA and anti-RNA autoantibodies from NZB/NZW F1 mice

The V region sequences of two anti-DNA (A52, D42) and two anti-RNA (D44, D444) autoantibodies, derived from lupus prone NZB/NZW F1 female mice, were determined by mRNA sequencing. The sequences had the following features: 1) there was no clear sequence relationship between anti-DNA and anti-RNA antibodies; 2) there were no major similarities between any of the L chain sequences and each VL gene segment belonged to a different mouse VK subgroup; 3) the H chains of the two anti-RNA antibodies showed closely related sequences of VH gene segments and very similar third complementarity determining regions (CDR3); 4) the H chains of the two anti-DNA antibodies had VH segments belonging to different VH gene families but had a unique and similar combination of D segments and junctional sequences, suggesting a common recognition element for Ag and/or for idiotypic regulation in the H chain CDR3; and 5) the VH gene segment of one anti-DNA antibody (D42) was found to be very similar to the VH gene segment of a CBA mouse hybridoma antibody (6G6) which binds to the environmental Ag phosphocholine. The three-dimensional structure of the Fv-region of the anti-DNA antibody (D42) was modeled by computer and a stretch of poly(dT), ssDNA was docked to a cleft in the antibody combining site, formed by the three H chain CDR and by CDR1 and CDR3 of the L chain. The cleft is characterized by a preponderance of arginine and tyrosine residues, lining both the walls and base of the cleft.     

Opposing effects on cardiac function by calorie restriction in different‐aged mice

Calorie restriction (CR) increases average and maximum lifespan and exhibits an apparent beneficial impact on age‐related diseases. Several studies have shown that CR initiated either in middle or old age could improve ischemic tolerance and rejuvenate the aging heart; however, the data are not uniform when initiated in young. The accurate time to initiate CR providing maximum benefits for cardiac remodeling and function during aging remains unclear. Thus, whether a similar degree of CR initiated in mice of different ages could exert a similar effect on myocardial protection was investigated in this study. C57BL/6 mice were subjected to a calorically restricted diet (40% less than the ad libitum diet) for 3 months initiated in 3, 12, and 19 months. It was found that CR significantly reversed the aging phenotypes of middle‐aged and old mice including cardiac remodeling (cardiomyocyte hypertrophy and cardiac fibrosis), inflammation, mitochondrial damage, telomere shortening, as well as senescence‐associated markers but accelerated in young mice. Furthermore, whole‐genome microarray demonstrated that the AMP‐activated protein kinase (AMPK)–Forkhead box subgroup ‘O’ (FOXO) pathway might be a major contributor to contrasting regulation by CR initiated in different ages; thus, increased autophagy was seen in middle‐aged and old mice but decreased in young mice. Together, the findings demonstrated promising myocardial protection by 40% CR should be initiated in middle or old age that may have vital implications for the practical nutritional regimen.     

NZB/NZW F1 mouse nephritis and immune response are not changed by treatment with a 15-lipoxygenase derivative.

15-HETE is an arachidonic acid derivative issued from the 15 lipoxygenase pathway. This fatty acid possesses immunomodulatory capabilities since it was reported that it generates CD8 + suppressor T-cells either in vitro or ex vivo. The aim of the present report was to study if the suppressive capabilities of 15-HETE were able to influence the onset of the NZB/NZW Fl auto-immune disease. For that purpose we produced 15-HETE and injected the eicosanoid twice a week to NZB/WFI mice for 40 weeks. During the 15-HETE treatment of the animals it was observed an augmentation of the proliferative response of lectin-stimulated splenocytes (at weeks 20 and 30) then the thymidine uptake decreased (at week 40). In fact we observed that among 15-HETE treated mice the evolution of the nephropathy was not changed, the 'glomerular activity score' remained the same for the treated animals compared to controls. On the contrary antinuclear antibodies occurred earlier even if in some experiments the generation of CD8 + cells was demonstrated.     

Dietary fat and immune function. I. Antibody responses, lymphocyte and accessory cell function in (NZB x NZW)F1 mice

The influence of dietary fat on autoimmunity in lupus-prone (NZB x NZW)F1 mice has been demonstrated. In defining further the effects of dietary lipid on the immune system of this strain, female weanling mice were placed on four diets differing in quantity and type of fat. Their immunologic response was then studied by a variety of tests at 4 and 7 mo of age. Few differences were seen among the four groups at 4 mo of age. At 7 mo of age, however, the mice receiving diets high in saturated and unsaturated fats had a reduced mitogenic response to T cell mitogens and an enhanced response to the B cell mitogen LPS. Immunoglobulin levels and delayed hypersensitivity responses did not show any consistent differences among the diet groups. At 7 mo, however, mice receiving diets high in unsaturated fat demonstrated hyperresponsiveness to injected sheep red blood cells as measured by the hemolytic plaque technique. In addition, peritoneal leukocytes from the same diet group exhibited an increased response to bromelain-treated autologous erythrocytes which was decreased after treatment with anti-Thy-1 antiserum and complement. Phagocytosis by peritoneal macrophages was significantly decreased in the animals fed high-fat diets, particular high saturated fat. Similarly, natural killer cell activity was markedly reduced in the mice with a high intake of saturated lipid, a finding which correlated with the in vitro production of interferon. These results indicate that diets high in fat influence immune responses and thus can affect the onset and severity of autoimmune disease. A low-fat diet can reduce the development of disease by maintaining normal immune responses. The data also suggest that unsaturated fat may influence T helper cell activity and therefore antibody production, whereas saturated fats may affect cellular immune responses which are dependent on membrane contact.     

Anti-inflammatory action of dietary fish oil and calorie restriction

Inflammation, inflammatory mediators, cyclooxygenase (COX)-2, and inducible nitric oxide (iNOS) are all influenced by age-related oxidative status. To investigate the effect of dietary fish oil (FO) and calorie restriction (CR) on oxidative stress-related inflammatory status with age, (NZB/NZW) F1 (B/W) mice were fed for 4 and 9 months either ad libitum or calorie-restricted (60% of ad libitum intake) diets containing 5% corn oil or 5% FO. We measured several key oxidative and inflammatory markers: TBARS, xanthine oxidase (XOD)-derived superoxide generation, and PGE2 and LTB4 production. Expressions of renal COX-1, COX-2, and iNOS mRNA were analyzed by RT-PCR; additionally, COX-2 protein was estimated by Western-blot method. Results show that FO intake and CR individually and together suppressed age-related increases in lipid peroxidation and superoxide generation. The inhibitory effects of dietary FO and CR were also found for iNOS expression, COX-2 expression, which subsequently led to the suppression of PGE2 and LTB4. We conclude that the beneficial effects of FO feeding and CR are synergistic in ameliorating the age-related nephritis of B/W mice by suppressing COX-2 and iNOS, reactive species generation, and pro-inflammatory mediators.     

Idiotype restriction in murine lupus; high frequency of three public idiotypes on serum IgG in nephritic NZB/NZW F1 mice

Antibodies to self-antigens are characteristic of several human and murine autoimmune diseases. Subsets of those autoantibodies cause organ damage in some instances, such as IgG antibodies to DNA in human and murine systemic lupus erythematosus (SLE). Our experiments in the NZB/NZW F1 (BW) female mouse model of SLE were designed to define idiotypic (Id) structures on antibodies to DNA in attempts to distinguish pathogens from nonpathogens within the anti-DNA population. Two important findings emerged. First, the number of public Id expressed became relatively restricted as the mice aged, with three such Id (IdX, IdGN1 and IdGN2) dominating and accounting for 30 to 95% of the total serum IgG in all individual nephritic mice studied, and 81 to 86% of the total IgG in serum pools from 30-wk-old nephritic mice. Second, IdGN1 and IdGN2 constituted approximately 50% of the IgG deposited in glomeruli of nephritic mice; IdX was present in negligible quantities in glomeruli, whereas it was usually the most frequent Id in BW serum. These latter findings suggested that pathogens and nonpathogens can be distinguished by their idiotypy in this animal model. The finding of relative Id restriction suggests the occurrence of an idiotypic "spreading" phenomenon, in which a regulatory process appears as BW mice age that results in repeated selection and expansion of this small number of Id, one group of which, the IdGN, is pathogenic. This process was further suggested in experiments in which IdX was suppressed by administration of anti-IdX; the "escape" antibodies to DNA appearing after suppression of IdX were composed largely of IdGN1 and IdGN2, without a major contribution from Id-negative mutants. Defining the basis of this Id spreading or restriction phenomenon may provide important information regarding the pathogenesis of this autoimmune disease.     

Reversal of advanced murine lupus in NZB/NZW F1 mice by treatment with monoclonal antibody to L3T4

Murine lupus in NZB/NZW F1 (B/W) mice can be prevented by weekly treatment with monoclonal antibodies (MAb) to L3T4 (on "helper/inducer" T cells) if treatment is begun prior to the onset of clinical illness. To determine whether anti-L3T4 could reverse as well as prevent murine lupus, we monitored a cohort of 30 B/W females until age 7 mo, when severe autoimmune disease was established, and then we examined the effects of weekly treatment with MAb to L3T4. The rate of target cell clearance by MAb was considerably slower in old B/W mice than it was in young B/W mice or in normal (BALB/c and C57BL/6) mice. Nonetheless, treatment with anti-L3T4 depleted 90% of circulating L3T4+ cells over 3 mo. In treated mice, the concentration of anti-DNA antibodies fell by 80%, renal insufficiency was reversed, and 1 yr survival was 75% compared to 17% in controls. These findings indicate that L3T4+ cells play an important role in perpetuating murine lupus in B/W mice even after severe disease is present. Because the L3T4 antigen in mice is homologous to the Leu-3/T4 (CD4) antigen in humans, these findings suggest that treatment with CD4 MAb may be effective in people with systemic lupus erythematosus.     

pConsensus peptide induces tolerogenic CD8+ T cells in lupus-prone (NZB x NZW)F1 mice by differentially regulating Foxp3 and PD1 molecules

Systemic lupus erythematosus is an autoimmune disease caused primarily by autoantibodies (including IgG anti-DNA) and immune complexes that cause tissue damage. After tolerization with an artificial peptide (pConsensus, pCons) based on murine anti-DNA IgG sequences containing MHC class I and class II T cell determinants, lupus-prone (NZB x NZW)F(1) female (BWF(1)) mice develop regulatory CD4+CD25+ T cells and inhibitory CD8+ T cells, both of which suppress anti-DNA Ig production and immune glomerulonephritis. In the present work, we show that splenocytes from BWF(1) mice treated with pCons had significant expansion of primarily CD8+ T cells. CD4+ T cells and B cells were each directly suppressed by CD8+ T cells from tolerized mice in a contact-independent manner. Both pCons-induced CD8+CD28+ and CD8+CD28- T cells suppressed production of anti-DNA in vitro. Silencing with small interfering RNA of Foxp3 abrogated the suppression mediated by both CD8+ T cell subsets. Additionally, CD8+ T cells from tolerized mice were weakly cytotoxic against syngeneic B cells from old anti-DNA-producing mice, but not from young mice. Importantly, pCons treatment had dual effects on CD8+ suppressor T cells from tolerized mice, increasing the intracellular expression of Foxp3 while decreasing the surface expression of PD1 molecules. Blocking PD1/PDL1 interactions in the CD8+ T cells from tolerized mice reduced their expression of Foxp3 and their ability to suppress CD4+CD25- proliferation. In contrast, blocking PD1/PDL1 in naive T cells increased Foxp3 expression. Our data suggest that tolerization with pCons activates different subsets of inhibitory/cytotoxic CD8+ T cells whose targets are both CD4+CD25- effector T cells and B cells.     

Total lymphoid irradiation reduces IgG autoantibody production and enhances specific antibody responses in NZB/NZW F1 mice

Thymus-independent primary antibody responses were studied in young and old (9 months) untreated and TLI-treated NZB/NZW and BALB/c mice. Untreated old NZB/NZW mice had a low primary response to Brucella abortus (BA) as compared to that of young NZB/NZW and BALB/c mice. However, TLI treatment resulted in a 130-fold increase in the IgG anti-BA primary antibody response at day 21 postimmunization, achieving similar levels to those of young NZB/NZW or nonautoimmune BALB/c mice. Anti-TNP responses to trinitrophenylated BA or Ficoll were masked by high background levels of anti-TNP antibodies. Despite the increase in the anti-BA response, spontaneous immunoglobulin secretion and autoantibody levels were markedly decreased after TLI in old NZB/NZW mice.     

CD4+ T lymphocytes with constitutive CD40 ligand in preautoimmune (NZB x NZW)F1 lupus-prone mice: phenotype and possible role in autoreactivity

Lupus disease is marked by B lymphocyte hyperactivity and the production of Abs to dsDNA. The production of these anti-dsDNA Abs is T lymphocyte dependent. However, it is not clear how CD4+ T lymphocytes provide help for B lymphocytes to produce IgG anti-dsDNA Abs. One possible mechanism is suggested by studies showing that human patients with systemic lupus erythematosus and lupus mice have increased numbers of CD40 ligand (CD40L)+ T and B lymphocytes. The results described in this study reveal that young, clinically healthy lupus-prone New Zealand Black x New Zealand White F1 (BWF1) mice have naive CD4+ T cells with preformed CD40L. These cells contribute to a brisk response to immunization and to the production of anti-dsDNA Abs. In vitro experiments revealed that CD4+ T cells with preformed CD40L could, upon stimulation, provide antiapoptotic signals for B cells but could not induce proliferation or reduce activation threshold. These results suggest that the direct target cells for the effect of T cells with preformed CD40L in lupus may not be B lymphocytes.