Cellular Immune Recognition and the Biological Role of Major Transplantation Antigens

The experiments leading to the discovery of MHC-restricted T-cell killing of virus-infected cells are described. The implications of MHC- and HLA-restricted T-cell killing for the development of new vaccines and for the understanding of autoimmune disease are discussed.     

Induction of tumour-specific immunity by manipulating the expression of major histocompatibility complex molecules on tumour cells

Abstract Class I major histocompatibility complex (MHC) molecules form part of the target structure recognized by the host cytotoxic T cells (CTL) to reject tumour cells. Many types of malignant tumour cells are reported in which expression of class I MHC genes is down-regulated. By DNA-mediated gene transfer, it is possible to re-express the 'missing' syngeneic (genetically identical) or to introduce 'new' allogeneic (genetically dissimilar) class I MHC genes into these MHC-deficient tumours. In both instances, the immunogenicity of the transfected tumour cells is greatly enhanced and results in their rejection in vivo. More importantly, these 'modified' tumour cells, which are positive for class I MHC molecules, can simultaneously generate an immunity against the 'wildtype' tumour cells which do not express these molecules. These observations suggest the distinct possibility of using gene transfer as a molecular immunotherapeutic approach to abrogate tumour growth.     

Cell Mediated Immunity in Virus Infections

The discovery of the molecular nature of T cell-mediated immunity is reviewed in a historical context. Current approaches to understanding virus-induced inflammatory processes are described.     

Membrane attack complex formation on yeast as trigger of selective release of terminal complement proteins from human polymorphonuclear leukocytes

It has recently been shown that measurable amounts of complement proteins, C6 and in particular C7, are released from human polymorphonuclear leukocytes (PMNs). The aim of the present study was to investigate the impact of opsonized Candida albicans on this release. Stimulation with opsonized C. albicans led to a rapid and sustained increase of C6 and C7 in the cell culture supernatant beginning within 5 min of placing in co-culture, whereas co-culture with unopsonized C. albicans or C. albicans mock-opsonized with inactivated human serum did not affect the release. In contrast, even after stimulation employing opsonized C. albicans, no release of the complement component C8 and only trace amounts of C9 were detected. The presence of the membrane attack complex (MAC) on C. albicans after opsonization was demonstrated by indirect immunofluorescence. Opsonization of C. albicans with human serum deficient in or depleted of a terminal complement component resulted in only minor stimulation of C6 and C7 release, although C3 deposition on the surface of C. albicans was not affected as determined by direct immunofluorescence. Detailed analyses with inactivated or deficient sera showed that detection of C6 and C7 was not due to insufficient washing of the opsonized yeast prior to co-culture and suggest that only a small proportion of these proteins was derived from the membrane bound and then cleaved off MAC. Thus, these findings imply that MAC on the fungal surface may represent an additional trigger for the release of C6 and C7 from PMNs, suggesting a new role for the terminal complement complex (TCC) on target membranes as modulator of PMN functions locally at the site of inflammation.     

Coexistence of a sexual and an unisexual form stabilized by parasites

An unisexual species (either parthenogenetic or gynogenetic form) often coexists sympatrically with a closely related anisogamous sexual species, forming a unisexual complex. This is puzzling because, all else being equal, a sexual population with the two-fold cost of sex (or the cost of producing males) cannot coexist with a unisexual population. This suggests that some ecological processes are at work to make possible the coexistence of the unisexual complex. Field and laboratory studies suggest that parasitism in a gynogenetic complex of the Japanese crucian carp (Carassius auratus) may play an important role in realizing the coexistence by giving frequency-dependent benefit to sexual population. Here, we study the simple dynamics of host-parasite interactions in which non-specific immune reaction of a sexual host is more effective than that of an unisexual host. We simply assume that the infective individuals are sterile. Stable coexistence of a unisexual species with their sexual relative is possible if pathogens are virulent and if the susceptibility of the unisexual form is more than twice as high as that of the sexual form. The coexistence is more difficult, when the fertility of males is relatively low in gynogenetic complexes. This implies that the coexistence of gynogenetic complexes is more difficult than that of parthenogenetic complexes in which parthenogenesis has no constraint on males. We conclude that parasitism is a promising candidate mechanism for the coexistence of unisexual complexes.     

The hidden benefits of sex: Evidence for MHC‐associated mate choice in primate societies

Major histocompatibility complex (MHC)‐associated mate choice is thought to give offspring a fitness advantage through disease resistance. Primates offer a unique opportunity to understand MHC‐associated mate choice within our own zoological order, while their social diversity provides an exceptional setting to examine the genetic determinants and consequences of mate choice in animal societies. Although mate choice is constrained by social context, increasing evidence shows that MHC‐dependent mate choice occurs across the order in a variety of socio‐sexual systems and favours mates with dissimilar, diverse or specific genotypes non‐exclusively. Recent research has also identified phenotypic indicators of MHC quality. Moreover, novel findings rehabilitate the importance of olfactory cues in signalling MHC genes and influencing primate mating decisions. These findings underline the importance to females of selecting a sexual partner of high genetic quality, as well as the generality of the role of MHC genes in sexual selection.     

The effects of historical fragmentation on major histocompatibility complex class II β and microsatellite variation in the Aegean island reptile,Podarcis erhardii

The major histocompatibility complex (MHC) plays a key role in disease resistance and is the most polymorphic gene region in vertebrates. Although habitat fragmentation is predicted to lead to a loss in MHC variation through drift, the impact of other evolutionary forces may counter this effect. Here we assess the impact of selection, drift, migration, and recombination on MHC class II and microsatellite variability in 14 island populations of the Aegean wall lizard Podarcis erhardii. Lizards were sampled from islands within the Cyclades (Greece) formed by rising sea levels as the last glacial maximum approximately 20,000 before present. Bathymetric data were used to determine the area and age of each island, allowing us to infer the corresponding magnitude and timing of genetic bottlenecks associated with island formation. Both MHC and microsatellite variation were positively associated with island area, supporting the hypothesis that drift governs neutral and adaptive variation in this system. However, MHC but not microsatellite variability declined significantly with island age. This discrepancy is likely due to the fact that microsatellites attain mutation‐drift equilibrium more rapidly than MHC. Although we detected signals of balancing selection, recombination and migration, the effects of these evolutionary processes appeared negligible relative to drift. This study demonstrates how land bridge islands can provide novel insights into the impact of historical fragmentation on genetic diversity as well as help disentangle the effects of different evolutionary forces on neutral and adaptive diversity.     

Genetic and other effects on antibody and cell mediated immune response in swine leucocyte antigen (SLA)-defined miniature pigs

Summary. Miniature pigs of eight swine leucocyte antigens (SLA) haplotypes were immunized with sheep erythrocytes (SRBC), hen egg white lysozyme (HEWL) and the synthetic peptide (T, G)-A–L to induce antibody. Bacillus Calmette Geurin (BCG) and dinitrochlorobenzene (DNCB) were used to induce cell mediated immune response (CMI). Analysis of variance by least squares was used to assess the effects of SLA haplotype, sire, dam, litter and sex of pig on the magnitude of the primary and secondary antibody response and on dermal delayed type hypersensitivity induced by purified protein derivative of tuberculin (PPD) and DNCB-induced contact hypersensitivity.
The statistical model accounted for 43.50–77.30% of the observed variability in antibody and CMI at various times after immunization or challenge. While SLA had a significant effect on both antibody and CMI to some antigens at some, but not all times, sire, dam and litter were more frequently significant and to a greater degree.
Haplotypes dd, dg and gg produced more antibody to SRBC and (T, G)-A–L while dg and gg had higher primary, but not secondary antibody response to HEWL. Delayed hypersensitivity to PPD was most marked in pigs of dd, dg and gg haplotypes while contact hypersensitivity to DNCB was expressed least in the dg and gg haplotype pigs.
Heritability estimates were high for response to (T, G)-A–L and HEWL indicating feasibility of selective breeding for these traits.     

Comparative Genomics RNAi Screen Identifies Eftud2 as a Novel Regulator of Innate Immunity

The extent of the innate immune response is regulated by many positively and negatively acting signaling proteins. This allows for proper activation of innate immunity to fight infection while ensuring that the response is limited to prevent unwanted complications. Thus mutations in innate immune regulators can lead to immune dysfunction or to inflammatory diseases such as arthritis or atherosclerosis. To identify novel innate immune regulators that could affect infectious or inflammatory disease, we have taken a comparative genomics RNAi screening approach in which we inhibit orthologous genes in the nematode Caenorhabditis elegans and murine macrophages, expecting that genes with evolutionarily conserved function also will regulate innate immunity in humans. Here we report the results of an RNAi screen of approximately half of the C. elegans genome, which led to the identification of many candidate genes that regulate innate immunity in C. elegans and mouse macrophages. One of these novel conserved regulators of innate immunity is the mRNA splicing regulator Eftud2, which we show controls the alternate splicing of the MyD88 innate immunity signaling adaptor to modulate the extent of the innate immune response.     

Molecular genetic characterization of the distal NKC recombination hotspot and putative murine CMV resistance control locus

The NK gene complex (NKC) controls murine cytomegalovirus (MCMV) immunity through Cmv1-dependent natural killer (NK) cell responses. Ly49H expression correlates with Cmv1 phenotypes in different inbred strains, is required for MCMV resistance in C57BL/6 (B6) mice, and its interaction with the MCMV encoded m157 protein leads to NK cell-mediated destruction of virus-infected cells. However, genetic mapping studies have previously indicated that Cmv1 should reside in the D6Wum9–16 NKC interval, distal to Ly49h. Since these data suggested that multiple NKC-linked loci could regulate viral immunity, a putative MCMV resistance control (Mrc) locus was pinpointed to within the D6Wum9–16 interval on a NKC-aligned bacterial artificial chromosome (BAC). Sequence analysis of BAC 151 revealed several novel G-protein coupled receptor genes, an HMG-1 remnant and many additional polymorphic microsatellites that were useful in determining the minimal genetic interval for the Mrc locus. Moreover, comparison of B6, BALB/c, A/J and recombinant Mrc alleles restricted the genetic interval to approximately 470 bp and showed that it was also a hotspot for recombination. MCMV challenge of novel NKC recombinant mice demonstrated that Mrc^B6 was not required for MCMV resistance nor could it directly complement the Ly49^BALB haplotype to rescue MCMV susceptibility. Taken together, these data show that while Mrc apparently guides recombination, Ly49H expression is sufficient for MCMV resistance in B6 mice. A direct role for Mrc^B6 in virus resistance is excluded in the novel mice.The nucleotide sequence data reported in this paper were assigned GenBank accession numbers AF462604, AY145449 and AY145450.     

A novel allele of the Arabidopsis thaliana MACPF protein CAD1 results in deregulated immune signaling

Immune recognition in plants is governed by two major classes of receptors: pattern recognition receptors (PRRs) and nucleotide-binding leucine-rich repeat receptors (NLRs). Located at the cell surface, PRRs bind extracellular ligands originating from microbes (indicative of “non-self”) or damaged plant cells (indicative of “infected-self”), and trigger signaling cascades to protect against infection. Located intracellularly, NLRs sense pathogen-induced physiological changes and trigger localized cell death and systemic resistance. Immune responses are under tight regulation in order to maintain homeostasis and promote plant health. In a forward-genetic screen to identify regulators of PRR-mediated immune signaling, we identified a novel allele of the membrane-attack complex and perforin (MACPF)-motif containing protein CONSTITUTIVE ACTIVE DEFENSE 1 (CAD1) resulting from a missense mutation in a conserved N-terminal cysteine. We show that cad1-5 mutants display deregulated immune signaling and symptoms of autoimmunity dependent on the lipase-like protein ENHANCED DISEASE SUSCEPTIBILITY 1 (EDS1), suggesting that CAD1 integrity is monitored by the plant immune system. We further demonstrate that CAD1 localizes to both the cytosol and plasma membrane using confocal microscopy and subcellular fractionation. Our results offer new insights into immune homeostasis and provide tools to further decipher the intriguing role of MACPF proteins in plants.     

RIR1 represses plant immunity by interacting with mitochondrial complex I subunit in rice

We previously observed decreased expression of rice OsmiR159a.1 on infection with the bacterial blight-causing pathogen Xanthomonas oryzae pv. oryzae (Xoo), and identified the OsLRR_RLK (leucine-rich repeat_ receptor like kinase) gene as an authentic target of OsmiR159a.1. Here, we found that a Tos17 insertion mutant of LRR_RLK displayed increasing temporal resistance to Xoo, whereas the LRR_RLK overexpression lines were susceptible to the pathogen early on in the infection, indicating that LRR_RLK encodes a repressor of rice resistance to Xoo infection, and it was renamed as RIR1 (Rice Immunity Repressor 1). RIR1 overexpression plants were more susceptible to Xoo at late growth stage, suggesting that RIR1 mRNA levels are negatively correlated with the resistance of rice against Xoo. We discovered that OsmiR159a.1 repression in Xoo-infected plants was largely dependent on the pathogen's type III secretion system. Co-immunoprecipitation, bimolecular fluoresence complementation, and pull-down assays indicated that RIR1 interacted with the NADH-ubiquinone oxidoreductase (NUO) 51-kDa subunit of the mitochondrial complex I through its kinase domain. Notably, impairment of RIR1 or overexpression of NUO resulted in reactive oxygen species accumulation and enhanced expression of pathogen-resistance genes, including jasmonic acid pathway genes. We propose that pathogens may inhibit OsmiR159 to interfere with the RIR1–NUO interaction, and subsequently depression of rice immune signalling pathways. The resistance genes manipulated by Xoo can be a probe to explore the regulatory network during host–pathogen interactions.     

罗非鱼免疫学研究进展

罗非鱼是我国主要的养殖鱼类之一,近年来频繁爆发的罗非鱼病害给罗非鱼产业造成了巨大的经济损失。鉴于免疫防治技术在水环境保护、食品安全等方面的优势,探讨鱼体免疫系统特性和免疫应答机制逐渐成为学术界的热点。就罗非鱼的非特异性免疫、体液免疫和细胞免疫等方面的研究成果作一综述,旨在为今后深入研究罗非鱼病害的免疫防治技术提供一些可行的思路和有效的依据。     

Investigation on the effect of peptides mixture from tumor cells inducing anti-tumor specific immune response

The peptides mixture was prepared from tumor cells by freezingthawing cells, precipitation by heating, followed by acidification of the solution. The activation and proliferation of mouse splenocytes by HSP70-peptide complex, formed by the binding of HSP70 and peptides in vitro, were observed, so was the specific cytotoxicity of the proliferative lymphocytes to tumor cells. The phenotypes of the proliferative lymphocytes were analyzed by a flow cytometer. BALB/c mice inoculated with H22 hepatocarcinoma cells in peritoneal cavity or hind thigh were immunized by injection with HSP70-peptides complex to observe the inhibitory effect of the immunization on tumor and lifetime of tumor-bearing mice. On the other hand, blood samples were collected from the immunized mice to check the functions of liver and kidney. The results showed that the peptides mixture from tumor cells contained tumor-specific antigen peptides which could be presented by HSP70 to activate lymphocytes in vitro, the proliferative lymphocytes were T cells which were specifically cytotoxic to tumor cells, the in vivo growth of both ascitic and solid carcinoma could be suppressed by immunization with HSP70-peptides and the lifetime of tumor-bearing mice was prolonged, the in vivo immunization with HSP70-H22-peptides had no impact on the function of mouse liver and kidney, suggesting that there was no occurrence of autoimmunity in vivo after immunization.     

鼠疫F1抗原和V抗原双组分候选疫苗的免疫学评价

目的通过由提取的鼠疫F1抗原和重组鼠疫V(rV)抗原组成的鼠疫候选疫苗免疫豚鼠,对其免疫效果进行评价。方法将豚鼠随机分成5个试验组,在免疫后不同时间点采血进行抗体检测、MTT法淋巴细胞增殖试验以及皮肤迟发型超敏反应(DTH)检测。结果抗体检测结果显示,双组分鼠疫候选疫苗能诱导较强的体液免疫应答;MTT细胞增殖结果显示,脾脏淋巴细胞特异性增殖不明显;中剂量组、高剂量组针对F1和rV抗原DTH阳转率均为100%。结论双组分鼠疫候选疫苗能诱导豚鼠体液免疫和细胞免疫应答,该疫苗有希望成为我国新一代鼠疫疫苗。     

人巨细胞病毒调控免疫逃逸相关基因的功能及其机制研究

人巨细胞病毒（HCMV）是一个广泛传播的机会致病原,也是不断利用和操控机体免疫系统致慢性持续性病毒感染的典型代表。在病毒与宿主共同漫长进化过程中,HCMV产生了许多逃避宿主免疫系统识别的机制,其基因组编码了大量产物,通过抑制自然杀伤细胞和树突细胞功能,下调被感染细胞表面主要组织相容性复合体（MHC）Ⅰ类和Ⅱ类分子表达以减少病毒抗原呈递,损伤IgG介导的体液免疫,调节多种趋化因子和细胞因子的作用,从而控制宿主天然免疫应答和适应性免疫应答的核心功能。本文就HCMV的免疫逃避机制进行综述,探讨病毒与宿主相互作用的发生、发展与结局。     

五步蛇毒对小鼠免疫功能的影响

目的 探索五步蛇毒对正常小鼠免疫功能的影响.方法 将KM小鼠随机分为5组,分别为空白组、五步蛇毒安全范围内低剂量组(30 mg/kg)、五步蛇毒安全范围内中剂量组(60 mg/kg)、五步蛇毒安全范围内高剂量组(120 mg/kg)(以下简称五步蛇毒低、中、高剂量组)以及西洋参组(30 mg/kg),每组10只.各组小...