Induction of antitumor immunity by indomethacin

Irradiated tumor cells given, together with indomethacin, to syngeneic mice induced an antitumor response and conferred protection against a challenge of a lethal dose of murine mammary (4T1) and lung (3LL) carcinoma cells. Continuous administration of indomethacin was crucial throughout the entire period of immunization and challenge, as no protection was achieved when the drug was given during only one of these procedures. Antitumor immunity was long-lasting and, when tested in the 4T1 model, 48% of mice were resistant to a second challenge of lethal tumor cells. Tumor-free immune mice that were given indomethacin for more than 300 days remained healthy with normal white blood cell counts and normal spleen size. Cells isolated from immune mice were able to kill tumor cells in culture after in vitro activation by interleukin-2, in a manner similar to cells from naive normal control mice. In addition, the mitogenic response of their T cells was as high as that of the control naive mice. While indomethacin was able to induce antitumor immunity to 4T1 and 3LL murine carcinoma cells, both of which contain a high concentration of endogenic prostaglandin E₂ (PGE2), no such immunity was achieved to murine tumor cells with a low concentration of endogenic PGE2. These results suggest a correlation between PGE2 concentration and the ability of indomethacin to induce antitumor immunity. We therefore suggest that an immunotherapy protocol with long-term dispensation of a tolerable dose of an immunomodulator, given together with irradiated autologous tumor cells, may stimulate antitumor responses to tumors containing high concentrations of endogenic PGE2. Received: 12 August 1999 / Accepted: 21 September 1999     

Cancer vaccines: single-epitope anti-idiotype vaccine versus multiple-epitope antigen vaccine

In this study, we compared the immunogenicity and tumor-protective activity of anti-idiotypic antibodies mimicking a single tumor-associated epitope and tumor-associated antigen expressing multiple potentially immunogenic epitopes. We focused our study on the colorectal-carcinoma(CRC)-associated antigen GA733 (also known as CO17-1A/KS1-4/KSA/EpCAM). Monoclonal anti-idiotypic antibody (Ab2) BR3E4 was produced against murine anti-CRC mAb CO17-1A (Ab1) in rats. Full-length native GA733 protein was isolated from human tumor cells, and the extracellular domain protein (GA733-2E) was isolated from supernatants of recombinant baculovirus-infected insect cells by immunoafffinity chromatography. The immunomodulatory activity of the Ab2 was compared with that of the antigen, both in rabbits and in mice. Mice, like humans but not rabbits, express a GA733 antigen homologue on some of their normal tissues. Thus, these in vivo models allow the comparison of the immunogenicity of Ab2 and antigen in the presence (mice) and absence (rabbits) of normal tissue expression and immunological tolerance of the GA733 antigen homologue. In rabbits, aluminum-hydroxide(alum)-precipitated native GA733 antigen was superior to alum-precipitated Ab2 in inducing specific humoral immunity. In mice, alum-precipitated recombinant GA733-2E antigen, but not alum-precipitated Ab2, induced specific humoral immunity. However, when the Ab2 was administered to mice in Freund's complete adjuvant, specific humoral immune responses were elicited. Ab2 in complete Freund's adjuvant and GA733-2E in alum were compared for their capacity to induce antigen-specific cellular immunity in mice. Whereas lymphoproliferative responses were obtained with the recombinant antigen only, delayed-type hypersensitivity responses were obtained with both recombinant antigen and Ab2, although these responses were lower than after antigen immunization. The recombinant antigen in alum did not protect mice against challenge with antigen-positive syngeneic murine CRC cells. Similar studies with Ab2 BR3E4 mimicking the CO17-1A epitope were not possible because the tumor cells do not express this epitope after transfection with the human GA733-2 cDNA. However, similar studies with Ab2 mimicking the epitope defined by mAb GA733, which is expressed by the transfected tumor cells, indicated a lack of tumor-protective activity of this Ab2. In contrast, the full-length antigen expressed by recombinant adenovirus inhibited the growth of established tumors in mice. In conclusion, soluble antigen is a more potent modulator of humoral and cellular immune responses than Ab2, both administered in adjuvant. However, for induction of protective immunity, the immunogenicity of the antigen must be further enhanced, e.g., by expression of the antigen in a viral vector. Received: 27 December 1999 / Accepted: 27 January 2000     

Infectibility and sensitivity of UK raspberry, blackberry and hybrid berry cultivars to Rubus viruses

Six blackberry or hybrid berry cultivars and 19 raspberry cultivars were assessed for their infectibility with, and sensitivity to, graft inoculation with 10 distinct viruses found infecting Rubus in the UK. Cultivars were grafted with each of, two isolates of the pollen borne raspberry bushy dwarf virus (RBDV), five aphid borne viruses: black raspberry necrosis, raspberry leaf mottle (RLMV), raspberry leaf spot (RLSV), rubus yellow net and raspberry vein chlorosis (RVCV); and isolates of the nematode transmitted nepoviruses, arabis mosaic, raspberry ringspot, strawberry latent ringspot and tomato black ring. All tested cultivars were infectible with a resistance breaking isolate of RBDV but only about half of that number with the Scottish type isolate of the virus. The raspberry cvs Autumn Bliss, and occasionally Glen Garry and Glen Prosen, developed leaf yellowing symptoms following infection with RBDV, but none of the other infected cultivars showed obvious leaf symptoms when kept in a heated glasshouse during the growing season. All tested cultivars were infectible with each of the four viruses transmitted in nature by the aphid, Amphorophora idaei. Most were infected symptomlessly, but seven cultivars developed severe leaf spotting symptoms due to infection with RLMV or RLSV. All but one of the raspberry cultivars were infectible with RVCV, which is transmitted in nature by the aphid Aphis idaei, and almost all infected plants developed leaf symptoms; only one of the hybrid berry or blackberry cultivars tested was infected with RVCV. In tests with the four nepoviruses, all tested cultivars, except Tummelberry, were infectible with at least one or more of these viruses. However, cultivars responded differently to challenge inoculation with different isolates of individual nepoviruses. Several cultivars developed chlorotic leaf mottling following infection with some nepovirus isolates. The implications of these results for virus control are discussed in the light of the changing pattern of virus and virus vector incidence in the UK.     

IL-12 and Viral Infections

Interleukin-12 activates natural killer cells and promotes the differentiation of Th1 CD4+ cells; it is a critical factor in viral immunity. IL-12 is secreted by antigen presenting cells including dendritic cells, macrophages and astrocytes, both in tissues and in secondary lymphoid organs. Experimental studies have shown that administration of the cytokine rapidly activates both innate and specific immune responses; this results in enhanced host cellular responses and generally, promotes clearance of virus and host recovery from infection. The observations of many laboratories, studying viral immunity to both RNA and DNA based pathogens, are summarized.     

Humoral Immunity against SARS-CoV-2 and the Impact on COVID-19 Pathogenesis

It has been more than a year since severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) first emerged. Many studies have provided insights into the various aspects of the immune response in coronavirus disease 2019 (COVID-19). Especially for antibody treatment and vaccine development, humoral immunity to SARS-CoV-2 has been studied extensively, though there is still much that is unknown and controversial. Here, we introduce key discoveries on the humoral immune responses in COVID-19, including the immune dynamics of antibody responses and correlations with disease severity, neutralizing antibodies and their cross-reactivity, how long the antibody and memory B-cell responses last, aberrant autoreactive antibodies generated in COVID-19 patients, and the efficacy of currently available therapeutic antibodies and vaccines against circulating SARS-CoV-2 variants, and highlight gaps in the current knowledge.     

Live imaging early immune cell ontogeny and function in zebrafish Danio rerio

The success of a robust vertebrate inflammatory response is in part because of the migratory potential of its haematopoietic components. Once these cells converge at an inflammatory site, they interact with each other as well as non‐immune tissues and infectious agents to help manage both the scale and the duration of any ensuing response. Exactly how these blood cells, that constitute the innate and adaptive immune systems, contribute to such immune responses remain largely unknown. Traditionally, assessing these contributions relied upon histological analysis of fixed tissue sections complemented with in vitro dynamic data. Although informative, translating results from these studies into the multicellular whole‐animal setting remain difficult. Recently, non‐invasive live imaging of the immune system in animal models is providing significant insights into how immune cells function within their intact natural environment. Although the majority of these studies have been conducted within mice, another vertebrate, the zebrafish Danio rerio is being recognized as an ideal platform for non‐invasive live imaging applications. The optical transparency, rapid development, genetic tractability and highly conserved innate and adaptive immune systems of this well‐established developmental model have been exploited in a number of recent studies evaluating the immunocompetence of fluorescently tagged blood cells. In addition, similar live imaging studies are helping to dissect the ontogeny of blood‐cell development by tracking various haematopoietic precursor cells to assess their contribution to different blood lineages. This review will examine some recent advances that have helped D. rerio emerge as a live imaging platform as well as its potential to offer valuable insights into the genetics behind diseases associated with immune cell dysfunction.     

Effects of food quality on trade‐offs among growth,immunity and survival in the greater wax moth Galleria mellonella

The resources available to an individual in any given environment are finite, and variation in life history traits reflect differential allocation of these resources to competing life functions. Nutritional quality of food is of particular importance in these life history decisions. In this study, we tested trade‐offs among growth, immunity and survival in 3 groups of greater wax moth (Galleria mellonella) larvae fed on diets of high and average nutritional quality. We found rapid growth and weak immunity (as measured by encapsulation response) in the larvae of the high‐energy food group. It took longer to develop on food of average nutritional quality. However, encapsulation response was stronger in this group. The larvae grew longer in the low‐energy food group, and had the strongest encapsulation response. We observed the highest survival rates in larvae of the low‐energy food group, while the highest mortality rates were observed in the high‐energy food group. A significant negative correlation between body mass and the strength of encapsulation response was found only in the high‐energy food group revealing significant competition between growth and immunity only at the highest rates of growth. The results of this study help to establish relationships between types of food, its nutritional value and life history traits of G. mellonella larvae.     

大鼠骨髓间充质干细胞抵抗人血清介导的异种体液免疫杀伤作用及其机制

目的：研究大鼠骨髓间充干细胞（rBMSC）抵抗人血清介导的异种体液性杀伤的作用及其主要机制。方法：分离培养SD 大 鼠BMSC,将第4 代的rBMSC 作为实验材料,以大鼠淋巴细胞（rLC）作为对照。采用流式细胞技术,检查两种细胞异种抗原alpha-Gal 的表达情况,体积分数20%正常人血清对两种细胞的杀伤作用、两种细胞分别与正常人血清中天然抗体IgM 和IgG的结合情况, 以及与正常人血清作用后补体C3c、C4c、C5b-9 在两种细胞上的沉积情况。结果：成功分离和培养rBMSC。相对于rLC,rBMSC 对 人血清介导的异种体液性杀伤具有明显的抵抗作用（P＜0.01）;rBMSC 上alpha-Gal的表达显著低于rLC（P＜0.05）;rBMSC 与人血清 中IgG和IgM的结合量显著低于rLC（P＜0.01）;与正常人血清作用后,rLC 可见显著的C3c、C4c 和C5b-9 沉积,但rBMSC仅有 较少C3c 和C4c 沉积,两种细胞间比较,差异均有统计学意义（P＜0.01）。结论：rBMSC 能明显抵抗人血清介导的异种体液免疫杀 伤作用,其机制可能与rBMSC 低表达异种抗原琢-Gal及抑制了补体攻膜复合物形成有关。     

小鼠对鼠伤寒沙门氏菌感染免疫应答的研究进展

小鼠鼠伤寒沙门氏菌感染后,会引发一系列的肠道和全身性的疾病,这是一种类似于人感染伤寒沙门氏菌的疾病。在感染的早期,天然免疫系统能迅速对入侵的细菌做出反应,吞噬细胞的活化以及炎症因子的产生能在一定程度上抑制鼠伤寒沙门氏菌的增殖,而在感染的后期,对于有效地控制和消灭细菌,获得性免疫是必要的。鼠伤寒沙门氏菌的感染能诱导特异性CD4+和CD8+T细胞的增殖,从而引发强烈的免疫应答,在此过程中也会产生大量的B细胞。特异性T细胞以及B细胞介导的免疫反应能有效地抵御细菌的侵染。总而言之在天然免疫系统和获得性免疫系统协调作用下,实现了对宿主的免疫保护。