胃癌相关mir-148a靶向调控胃泌素受体CCKBR

目的：研究胃癌相关miR-148a与胃泌素受体CCKBR的调控关系,并分析其调控结合位点。方法生物信息学预测人CCKBR 3’ UTR上miR-148a 的结合位点;利用 PCR扩增 miR-148a 前体构建真核表达载体;Northern Blot检测miR-148a真核表达载体的表达;构建CCKBR 3’UTR野生型和突变型荧光素酶报告载体,并利用双荧光素酶活性分析检测分析miR-148a对CCKBR基因表达的调控和结合位点;Western Blot检测miR-148a过表达对CCKBR蛋白表达的作用。结果在人CCKBR 3’UTR上找到3个miR-148a的潜在结合位点;miR-148a真核表达载体构建成功,转染胃癌细胞后可显著过表达;miR-148a通过人CCKBR 3’UTR上423bp处的结合位点抑制CCKBR的基因表达;miR-148a过表达显著抑制胃癌细胞中CCKBR的蛋白表达。结论 CCKBR是胃癌相关miR-148a的靶基因,miR-148a通过其3’UTR上的结合位点抑制CCKBR的基因表达和蛋白合成,提示miR-148a可能通过调控CCKBR参与胃癌的发生发展。     

微小RNA与免疫调节

微小RNA(miRNA)是一类22核苷酸的高度保守的小分子非编码RNA,主要通过与靶mRNA的3′非编码区碱基互补配对结合而引起靶RNA降解或翻译抑制.越来越多的研究显示,miRNA在免疫反应中具有新型调节作用,包括调节免疫细胞的发育和分化、B细胞抗体的产生、炎性介质的释放、细胞信号转导等.miRNA在维持机体免疫系统...     

Cell death during sepsis: integration of disintegration in the inflammatory response to overwhelming infection

Sepsis is a major health problem and a leading cause of death worldwide. In recent years, a crescendo of attention has been directed to the mechanisms of cell death that develop during this disease, since these are viewed as important contributors to the proinflammatory and anti-inflammatory responses associated with poor outcome. Here we discuss mechanisms of cell death evident severe bacterial infection and sepsis including necrosis, apoptosis, pyroptosis, and extracellular trap-associated neutrophil death, with a particular emphasis on lymphocyte apoptosis and its contribution to the immunosuppressed phenotype of late sepsis. Individual bacterial pathogens express virulence factors that modulate cell death pathways and influence the sepsis phenotype. A greater knowledge of cell death pathways in sepsis informs the potential for future therapies designed to ameliorate immune dysfunction in this syndrome.     

禽坦布苏病毒诱导的宿主免疫应答

禽坦布苏病毒(Avian Tembusu virus,ATMUV)是近年来在我国新发现的一种病毒,可感染多种蛋禽,感染动物临床特征为采食量下降,产蛋量骤减,甚至停产,感染后期呈神经症状,如腿和翅膀麻痹、共济失调等。ATMUV在我国多个省市地区流行,给我国甚至世界养禽业带来严重影响。固有免疫是机体抵抗病原感染的第一道重要防线,是机体与生俱来的抵御病原微生物的能力。适应性免疫是机体免疫系统在抗原刺激下产生特异性抗体及免疫效应细胞的过程,以建立针对某种病原微生物的抵抗力,是机体免疫系统的重要部分。本文将从禽坦布苏病毒诱导宿主固有免疫应答和适应性免疫应答两方面进行综述。     

Ubiquitination by SAG regulates macrophage survival/death and immune response during infection

The checkpoint between the life and death of macrophages is crucial for the host''s frontline immune defense during acute phase infection. However, the mechanism as to how the immune cell equilibrates between apoptosis and immune response is unclear. Using in vitro and ex vivo approaches, we showed that macrophage survival is synchronized by SAG (sensitive to apoptosis gene), which is a key member of the ubiquitin–proteasome system (UPS). When challenged by pathogen-associated molecular patterns (PAMPs), we observed a reciprocal expression profile of pro- and antiapoptotic factors in macrophages. However, SAG knockdown disrupted this balance. Further analysis revealed that ubiquitination of Bax and SARM (sterile α- and HEAT/armadillo-motif-containing protein) by SAG-UPS confers survival advantage to infected macrophages. SAG knockdown caused the accumulation of proapoptotic Bax and SARM, imbalance of Bcl-2/Bax in the mitochondria, induction of cytosolic cytochrome c and activation of caspase-9 and -3, all of which led to disequilibrium between life and death of macrophages. In contrast, SAG-overexpressing macrophages challenged with PAMPs exhibited upregulation of protumorigenic cytokines (IL-1β, IL-6 and TNF-α), and downregulation of antitumorigenic cytokine (IL-12p40) and anti-inflammatory cytokine (IL-10). This suggests that SAG-dependent UPS is a key switch between immune defense and apoptosis or immune overactivation and tumorigenesis. Altogether, our results indicate that SAG-UPS facilitates a timely and appropriate level of immune response, prompting future development of potential immunomodulators of SAG-UPS.In an infection, the pattern recognition receptors (PRRs) of the macrophages recognize pathogen pattern-associated molecular patterns (PAMPs), leading to phagocytosis of the pathogen, release of cytokines and secretion of antimicrobial peptides. When overwhelmed by pathogens, macrophages may undergo apoptosis, which produces microbicidal reactive oxygen species.¹ Apoptotic death of macrophages is a strategic sacrifice, representing a severe terminal stage of cellular defense against microbial invasion.The mitochondria has a decisive role in cell death or survival by controlling apoptosis signals via recruitment of pro- and antiapoptosis factors.² Although it is known that many pathogens regulate apoptosis in the host,³ the mechanisms underlying how the host immune cell equilibrates its own death and survival to elicit an optimal immune response is poorly understood. This prompted us to investigate how signaling proteins might regulate the checkpoint between apoptosis or immune response. In this regard, we noted several lines of evidence indicating a hitherto undiscovered phenomenon on the control of host cell death or survival versus immune defense. Firstly, it is proposed that the ubiquitin–proteasome system (UPS)-mediated degradation of Bcl-2 family proteins regulates apoptotic cell death.⁴ Secondly, the sensitive to apoptosis gene (SAG), a key component of UPS, is strongly induced during early infection,⁵ suggesting its role in frontline defense. Thirdly, SARM (sterile α- and HEAT/armadillo-motif-containing protein), an evolutionarily conserved mitochondria-associated protein,^{6, 7} which downregulates TLR-TRIF signaling,⁸ exerts a strong proapoptotic killing of infection-activated T cells during the pathogen-clearance phase.⁹ As SAG confers survival to cancer cells,^{10, 11} we hypothesize that SAG and SARM have opposing roles in modulating apoptosis and immune response. Thus, we investigated the dynamic expression profiles of SAG and Bcl-2 (antiapoptotic) and Bax and SARM (proapoptotic) in macrophages challenged with bacterial and viral PAMPs.We demonstrated that SAG responds dynamically to PAMP stimulation. SAG knockdown abrogates ubiquitination and stabilizes the proapoptotic Bax and SARM proteins, leading to their accumulation in the mitochondria and resulting in intrinsic apoptosis. SAG overexpression in macrophages downregulated the antitumorigenic cytokine (IL-12p40) and anti-inflammatory cytokine (IL-10), but upregulated the protumorigenic cytokines (IL-1β, IL-6 and TNF-α), indicating cellular sensitization to SAG activation. Taken together, we propose that the crossroad between macrophage survival/death and immune response is synchronized to a large extent by SAG-UPS.     

Host response to Helicobacter pylori infection before initiation of the adaptive immune response

Helicobacter pylori persistently colonizes the human stomach. In this study, immune responses to H. pylori that occur in the early stages of infection were investigated. Within the first 2 days after orogastric infection of mice with H. pylori, there was a transient infiltration of macrophages and neutrophils into the glandular stomach. By day 10 postinfection, the numbers of macrophages and neutrophils decreased to baseline levels. By 3 weeks postinfection, an adaptive immune response was detected, marked by gastric infiltration of T lymphocytes, macrophages, and neutrophils, as well as increased numbers of H. pylori-specific T cells, macrophages, and dendritic cells in paragastric lymph nodes. Neutrophil-attracting and macrophage-attracting chemokines were expressed at higher levels in the stomachs of H. pylori-infected mice than in the stomachs of uninfected mice. Increased expression of TNFalpha and IFNgamma (Th1-type inflammatory cytokines) and IL-17 (a Th17-type cytokine) was detected in the stomachs of H. pylori-infected mice, but increased expression of IL-4 (a Th2-type cytokine) was not detected. These data indicate that a transient gastric inflammatory response to H. pylori occurs within the first few days after infection, before the priming of T cells and initiation of an adaptive immune response. It is speculated that inappropriate waning of the innate immune response during early stages of infection may be a factor that contributes to H. pylori persistence.     

The miniature pig: a unique experimental model for Schistosoma japonicum infection

As part of a search for good animal models for human schistosomiasis, two miniature pigs of the CLAWN strain (C-1, C-2) were inoculated percutaneously with 200 Schistosoma japonicum cercariae of the Chinese strain, and the subsequent infection was monitored parasitologically, pathologically and serologically. Egg excretion into feces began at 5 weeks post-infection (p.i.) and became pronounced from 8 weeks to 17–20 weeks p.i. The average number of eggs in 1 g feces of each pig at the peak period between 8 and 20 weeks were 288 and 277, respectively. C-1 and C-2 were killed and perfused at 27 and 47 weeks p.i. and adult worm numbers recovered were 35 and 15, respectively. C-2 had at least four pairs of viable mature worms but no detectable fecal eggs for a month before perfusion, suggesting that any produced eggs were not excreted into the feces during this period. Egg deposits associated with inflammatory reactions were observed by histological examination of the liver, spleen, pancreas, mesenteric lymph nodes, lung, and small intestine. This suggests that reduced fecal excretion of eggs into the feces did not correlate to reduced parasite numbers in the chronic phase of schistosomiasis. This is the first report showing the miniature pig to be a potential model for human S. japonicum infection.     

Extracellular vesicles: Mediators of embryo-maternal crosstalk during pregnancy and a new weapon to fight against infertility

In modern-day life, infertility is one of the major issues that can affect an individual, both physically and psychologically. Several anatomical, physiological, and genetic factors might contribute to the infertility of an individual. Intercellular communication between trophectoderm and endometrial epithelium triggers successful embryo implantation and thereby establishes pregnancy. Recent studies demonstrate that Extracellular vesicles (EVs) are emerging as one of the crucial components that are involved in embryo-maternal communication and promote pregnancy. Membrane-bound EVs release several secreted factors within the uterine fluid, which mediates an intermolecular transfer of EVs’ cargos between blastocysts and endometrium. Emerging evidences indicate that several events like imbalance in the release of endometrial or placenta-derived EVs (exosomes/MVs), uptake of their content, failure of embryo selection might lead to implantation failure. Here in this review, we have discussed the current knowledge of the involvement of EVs in maternal-fetal communications during implantation and also highlighted the EVs’ rejuvenating ability to overcome infertility-related issues. We also discussed the alteration of the EVs’ cargo in different pathological conditions that lead to infertility. Therefore, this review would give a better understanding of EVs’ contribution in successful embryo implantation, which could help in the development of new diagnostic tools and cell-free biologics to improve the in vivo reproductive process and to treat infertility by restoring normal reproductive functions.     

Follicular helper T cells recruit eosinophils into host liver by producing CXCL12 during Schistosoma japonicum infection

Schistosomiasis affects at least 200 million people in tropical and subtropical areas. The major pathology of schistosomiasis is egg‐induced liver granuloma characterized by an eosinophil‐rich inflammatory infiltration around the eggs, which subsequently leads to hepatic fibrosis and circulatory impairment in host. However, the mechanisms how eosinophils are recruited into the liver, which are crucial for the better understanding of the mechanisms underlying granuloma formation and control of schistosomiasis, remain unclear. In this study, we showed that follicular helper T (Tfh) cells participate in recruitment of eosinophils into liver partially by producing CXCL12 during schistosome infection. Our findings uncovered a previously unappreciated role of Tfh cells in promotion of the development of liver granuloma in schistosomiasis, making Tfh‐CXCL12‐eosinophil axis a potential target for intervention of schistosomiasis.     

Salmonella infection of bone marrow-derived macrophages and dendritic cells: influence on antigen presentation and initiating an immune response

Traditionally macrophages (MPhi) have been considered to be the key type of antigen presenting cells (APC) to combat bacterial infections by phagocytosing and destroying bacteria and presenting bacteria-derived antigens to T cells. However, data in recent years have demonstrated that dendritic cells (DC), at their immature stage of differentiation, are capable of phagocytosing particulate antigens including bacteria. Thus, DC may also be important APC for initiating an immune response to bacterial infections. Our studies focus on studying how DC and MPhi process antigens derived from bacteria with no known mechanism of phagosomal escape (i.e. Salmonella typhimurium) for T cell stimulation as well as what role these APC types have in Salmonella infection in vivo. Using an in vitro antigen processing and presentation assay with bone marrow-derived (BM) APC showed that, in addition to peritoneal elicited MPhi and BMMPhi, BMDC can phagocytose and process Escherichia coli and S. typhimurium for peptide presentation on major histocompatibility complex (MHC) class I (MHC-I) and class II MHC-II. These studies showed that both elicited peritoneal MPhi and BMMPhi use an alternate MHC-I presentation pathway that does not require the transporter associated with antigen processing (TAP) or the proteasome and involves peptide loading onto a preformed pool of post-Golgi MHC-I molecules. In contrast, DC process E. coli and S. typhimurium for peptide presentation on MHC-I using the cytosolic MHC-I presentation pathway that requires TAP, the proteasome and uses newly synthesized MHC-I molecules. We further investigated the interaction of Salmonella with BMDC and BMMPhi by analyzing surface molecule expression and cytokine secretion following S. typhimurium infection of BMDC and BMMPhi. These data reveal that Salmonella co-incubation with BMDC as well as BMMPhi results in upregulation of MHC-I and MHC-II as well as several co-stimulatory molecules including CD80 and CD86. Salmonella infection of BMDC or BMMPhi also results in secretion of cytokines including IL-6 and IL-12. Finally, injecting mice with BMDC that have been loaded in vitro with S. typhimurium primes na?ve CD4(+) and CD8(+) T cells to Salmonella-encoded antigens. Taken together, our data suggest that DC may be an important type of APC that contributes to the immune response to Salmonella.     

Effect of maternal praziquantel treatment for Schistosoma japonicum infection on the offspring susceptibility and immunologic response to infection at age six,a cohort study

In areas endemic to schistosomiasis, fetal exposure to schistosome antigens prime the offspring before potential natural infection. Praziquantel (PZQ) treatment for Schistosoma japonicum infection in pregnant women has been demonstrated to be safe and effective. Our objectives were to evaluate whether maternal PZQ treatment modifies the process of in utero sensitization to schistosome antigens potentially impacting later risk of infection, as well as immune response to S. japonicum. We enrolled 295 children at age six, born to mothers with S. japonicum infection who participated in a randomized control trial of PZQ versus placebo given at 12–16 weeks gestation in Leyte, The Philippines. At enrollment, we assessed and treated current S. japonicum infection and measured serum cytokines. During a follow-up visit four weeks later, we assessed peripheral blood mononuclear cell (PBMC) cytokine production in response to soluble worm antigen preparation (SWAP) or soluble egg antigen (SEA). Associations between maternal treatment group and the child’s S. japonicum infection status and immunologic responses were determined using multivariate linear regression analysis. PZQ treatment during pregnancy did not impact the prevalence (P = 0.12) or intensity (P = 0.59) of natural S. japonicum infection among children at age six. Among children with infection at enrollment (12.5%) there were no significant serum cytokine concentration differences between maternal treatment groups. Among children with infection at enrollment, IL-1 production by PBMCs stimulated with SEA was higher (P = 0.03) in the maternal PZQ group compared to placebo. Among children without infection, PBMCs stimulated with SEA produced greater IL-12 (P = 0.03) and with SWAP produced less IL-4 (P = 0.01) in the maternal PZQ group compared to placebo. Several cytokines produced by PBMCs in response to SWAP and SEA were significantly higher in children with S. japonicum infection irrespective of maternal treatment: IL-4, IL-5, IL-10, and IL-13. We report that maternal PZQ treatment for S. japonicum shifted the PBMC immune response to a more inflammatory signature but had no impact on their offspring’s likelihood of infection or serum cytokines at age six, further supporting the safe use of PZQ in pregnant women.Trial Registration: ClinicalTrials.gov {"type":"clinical-trial","attrs":{"text":"NCT00486863","term_id":"NCT00486863"}}NCT00486863.     

Indigofera oblongifolia leaf extract regulates spleen macrophage response during Plasmodium chabaudi infection

Malaria is a major health problem that still affects numerous countries. The current study aimed to identify the role of Indigofera oblongifolia leaf extract in regulating mouse spleen macrophages during the progression of Plasmodium chabaudi infection. Three doses of the leaf extract (100, 200, and 300 mg/kg) were administered to mice inoculated with P. chabaudi infected erythrocytes. The weight of the infected mice improved after the treatment with I. oblongifolia. The infection causes disorganization of macrophage distribution in the spleen. After the mice had been treated with the leaf extract, the macrophages appeared to be reorganized in the white and red pulp areas. In addition, the I. oblongifolia leaf extract (IOLE) significantly increased the total antioxidant capacity of the mice spleens infected with P. chabaudi. The phagocytic activity of spleen macrophages was increased in the infected group as indicated by the significant decrease in the number of fluorescent particles in the spleen sections. This number increased in the mice spleens after treatment with IOLE. Based on these results, it is suggested that IOLE regulate macrophage response of the spleen during the blood stage of malaria in mice.     

Tumor-secreted miR-214 induces regulatory T cells: a major link between immune evasion and tumor growth

An increased population of CD4⁺CD25^highFoxp3⁺ regulatory T cells (Tregs) in the tumor-associated microenvironment plays an important role in cancer immune evasion. However, the underlying mechanism remains unclear. Here we observed an increased secretion of miR-214 in various types of human cancers and mouse tumor models. Tumor-secreted miR-214 was sufficiently delivered into recipient T cells by microvesicles (MVs). In targeted mouse peripheral CD4⁺ T cells, tumor-derived miR-214 efficiently downregulated phosphatase and tensin homolog (PTEN) and promoted Treg expansion. The miR-214-induced Tregs secreted higher levels of IL-10 and promoted tumor growth in nude mice. Furthermore, in vivo studies indicated that Treg expansion mediated by cancer cell-secreted miR-214 resulted in enhanced immune suppression and tumor implantation/growth in mice. The MV delivery of anti-miR-214 antisense oligonucleotides (ASOs) into mice implanted with tumors blocked Treg expansion and tumor growth. Our study reveals a novel mechanism through which cancer cell actively manipulates immune response via promoting Treg expansion.     

Long noncoding RNA UCA1 regulates HCV replication and antiviral response via miR-145-5p/SOCS7/IFN pathway

Hepatitis C virus (HCV) infection involves a variety of viral and host factors, which leads to the dysregulation of number of relevant genes including long noncoding RNAs (LncRNAs). LncRNA urothelial carcinoma-associated 1 (UCA1) has been reported to be upregulated in HCV-infected individuals. In a bid to elucidate on the contribution of UCA1 on HCV replication, we infected Huh7.5 cells with cell culture-derived HCV and found that UCA1 expression was elevated in time- and dose-dependent manners. Functionally, UCA1 knockdown by siRNA upregulated interferon (IFN) responses, thereby increasing the expression of interferon-stimulating genes (ISGs), and subsequently suppressing HCV replication. Bioinformatics analysis and experimental results indicated that, functioning as competitive endogenous RNA, UCA1 could sponge microRNA (miR)-145-5p, which targeted suppressor of cytokine signaling 7 (SOCS7) mRNA and subsequently mediated SOCS7 silencing. Moreover, SOCS7 protein exerted an inhibitory effect on IFN responses, thereby facilitating HCV replication. Taken together, at first, our findings demonstrate that UCA1 can counteract the expression of miR-145-5p, thereby upregulating the level of SOCS7, and in turn leading to the suppression of antiviral response in Huh7.5 cells.     

Circ_0000052/miR-382-3p axis induces PD-L1 expression and regulates cell proliferation and immune evasion in head and neck squamous cell carcinoma

A better understanding of the mechanisms underlying PD-L1 aberrant expression in head and neck squamous cell carcinoma (HNSCC) will help reveal predictive biomarkers and overcome resistance to treatment. In this study, the prognostic significance of PD-L1 in forty-five HNSCC archival samples was determined by qRT-PCR. The biological function associated with malignant behaviour was assessed by PD-L1 depletion, miR-382-3p re-expression and regulation of circ_0000052. The interactions of PD-L1-miRNA and miRNA-circRNA were determined by qRT-PCR, Western blot analysis, dual-luciferase reporter assays and RNA immunoprecipitation assays. PD-L1 was highly expressed in patient samples and cancer cell lines. Higher levels of PD-L1 were associated with patient recurrences and play a pivotal role in regulating cell proliferation, migration, invasion, clonogenicity and apoptosis. In addition to demonstrating that the IFN-γ/JAK2/STAT1 signalling pathway can induce PD-L1 overexpression in HNSCC, a novel mechanism by which upregulated circ_0000052 mediates PD-L1 overexpression was also demonstrated. To do this, circ_0000052 competitively binds to miR-382-3p and alleviates its repression of PD-L1. This leads to overexpression of PD-L1, causing the aggressiveness of the cells. Our data demonstrate that circ_0000052 is oncogenic, and the circ_0000052/miR-382-3p/PD-L1 axis is critical in HNSCC progression. The manipulation of circRNAs/miRNAs in combination with anti-PD-L1 therapy may improve personalized disease management.     

Cathepsin L is crucial for a Th1-type immune response during Leishmania major infection

Prior to the activation of CD4+ T cells, exogenous proteins are digested by endo/lysosomal enzymes in antigen-presenting cells (APCs) to produce antigenic peptides that are presented on MHC class II molecules. In the studies described here, the functional significance of cathepsin L for antigen processing and Th1/Th2 differentiation in experimental leishmaniasis was investigated. We first demonstrated that cathepsin L is one of the candidates for endo/lysosomal enzymes in the processing of soluble Leishmania antigen (SLA) by using CLIK148, a specific inhibitor of cathepsin L. Treatment of BALB/c or DBA/2 mice with CLIK148 exacerbated the disease by enhancing an SLA-specific Th2-type response such as IL-4 production. CLIK148 did not exert any direct influence on Leishmania major promastigotes themselves or on the course of L. major infection in SCID mice. Taken together, these findings suggest that treatment of host mice with CLIK148 affects the processing of SLA in APCs, resulting in the potentiation of Th2-type immune responses and thus leading to exacerbation of the disease. Furthermore, endo/lysosomal cathepsin L was found to be functionally distinct from previously described cathepsins B and D.     

Cortisol regulates immune and metabolic processes in murine adipocytes and macrophages through HTR2c and HTR5a serotonin receptors

Epidemiological studies implicate stress as an important factor contributing to the increasing prevalence of metabolic disorders. Studies have correlated visceral obesity and atherosclerosis with hyper-cortisolemia, a sequela of chronic psychological stress in humans and animals. Although several hormonal markers of stress have been associated with various metabolic disorders, the mechanism by which these hormones alter metabolic functions have not been established. We used an in vitro model system, culturing 3T3-L1 pre-adipocytes and RAW 264.7 macrophages in the presence or absence of cortisol, to analyze cell signaling pathways mediating changes in metabolic functions. Our analysis revealed that cortisol up-regulated the expression and function of two serotonin (S) receptors, HTR2c and HTR5a. HTR2c and HTR5a were also directly involved in mediating cortisol enhanced adipogenesis when pre-adipocytes were cultured alone or in the presence of macrophages. Finally, cortisol treatment of pre-adipocytes co-cultured with macrophages enhanced adipogenesis in both macrophages and pre-adipocytes.