Algal toxin yessotoxin signalling pathways involve immunocyte mussel calcium channels

A fragment of a putative L-type Ca(2+) channel has been identified by molecular biology experiments in immunocytes from the mussel Mytilus galloprovincialis. Using the cell permeable and Ca(2+)-specific fluorochrome FURA 2-AM, we have demonstrated that the algal toxin yessotoxin (YTX) is able to increase intracellular Ca(2+) concentration in M. galloprovincialis immunocytes. The YTX effect on Ca(2+) increase is inhibited by the L-type Ca(2+) channel inhibitor, verapamil, which is cAMP- and cGMP-dependent, but PKA- and nitric oxide-independent. On the basis of these observations, a possible role for YTX as a potential disturber of mussel immune efficiency is suggested.     

Requirement of the Fas ligand-expressing luteal immune cells for regression of corpus luteum

Apoptosis in corpus luteum (CL) is induced by prolactin (PRL) in female rats. PRL-induced apoptosis in CL is mediated by the Fas/Fas ligand (FasL) system. The CL consists of steroidogenic and non-steroidogenic cells, including immunocytes. Fas mRNA was detected only in the luteal steroidogenic cells, and FasL mRNA was expressed only by the non-steroidogenic CD3-positive luteal immunocytes. Removing the luteal immune cells from the luteal cells inhibited PRL-induced luteal cell apoptosis effectively. Thus, FasL-expressing non-steroidogenic luteal immunocytes are required for PRL-induced luteal cell apoptosis and heterogeneous induction of apoptosis by Fas/FasL in CL.     

Opioid peptides and innate immune response in mollusc

The nervous and the immune systems can exchange information through opioid peptides. Furthermore, some opioid peptides can function as endogenous messengers of the immune system, and participate in an important part in the regulation of the various components of the immune response. Since the capacity of immunocytes to release and respond to opioid neuropeptide messengers is not restricted to mammalian organisms, recent studies have indicated that invertebrate models have been particularly useful to understand the mechanisms of the immune response. Moreover, the immunocytes of molluscs resemble cells of the vertebrate monocyte/macrophage lineage and are activated by similar substances, which control the main immune responses, i.e. phagocytosis, chemotaxis, and cytotoxicity. Recently, Mytilus edulis has been the subject of recent studies to determine whether the relationship between the immune and nervous systems seen in vertebrates also exists in invertebrates. The focus of this review is to describe how the opioid peptides participate in immune processes in molluscs.     

Differential immunosuppressive effects of ascites fluid from mastocytoma-bearing mice on primary vs secondary immunocyte responses.

The effects of immunosuppressive ascites fluids from mastocytoma-bearing mice on the primary vs secondary immune response to sheep red blood cells (SRBC) was examined. Injection of mice with ascites fluid from tumor-bearing mice markedly depressed the primary immune response of normal syngeneic mice challenged with SRBC. However, there was a preferential depression of the 19S IgM antibody response as compared with the 7S IgG response. Injection of ascites fluid shortly before secondary immunization of mice with SRBC also resulted in depressed IgM PFC responses but only a slight to moderate depression of IgG PFC. Treatment of mice with the ascites fluid before primary immunization had little if any effect on the secondary IgG PFC response, although the IgM response was moderately depressed. These results indicate that the immunosuppressive factor(s) present in the ascites fluid of mastocytoma-bearing mice has a differential effect on distinct classes of immunocytes. Those immunocytes or their precursors involved in formation of low efficiency 7S IgG antibody are more resistant to immunodepression. Such differences appear due to different sensitivities of cells involved in the immune response system.     

Gender differences in the immune system activities of sea urchin Paracentrotus lividus

In the immune system of vertebrates, gender-specific differences in individual immune competence are well known. In general, females possess more powerful immune response than males. In invertebrates, the situation is much less clear. For this purpose we have chosen to study the immune response of the two sexes of the echinoderm Paracentrotus lividus in pre- and post-spawning phases. The coelomic fluid from the echinoderms contains several coelomocyte types and molecules involved in innate immune defenses. In this article we report that the degree of immune responses in the P. lividus differs according to sex in both pre- and post-spawning phases. We found in all tests that females were more active than males. The results indicate that females possess a significant higher number of immunocytes consisting of phagocytes and uncolored spherulocytes. Since the immunological activity is mainly based on immunocytes, it was not surprising that females possessed the highest values of cytotoxicity and hemolysis activity and showed a greater ability to uptake neutral red and phagocyte yeasts cells, while the average number of ingested particles per active phagocyte was not significantly different. Furthermore, agglutinating activity was more evident in the coelomocyte lysate and coelomic fluid of females than in those of males. Finally we found that the acidic extract of female gonads possessed greater antimicrobial activity than that of male gonads. These results make it very likely that gender differences in the immune response are not restricted to vertebrates; rather, they are a general evolutionary phenomenon.     

Lectins and superantigens: Membrane interactions of these compounds with T lymphocytes affect immune responses

• 1.1. Lectins and superantigens belong to two different families of macromolecules which are able to interact with cells of the immune system.
• 2.2. The principal mechanisms by which they modulate immune responses are presented in this review.
• 3.3. Possible similarities shared by these proteins and their common mechanisms of action upon immunocytes will be presented along with a brief discussion regarding the role of these molecules in physiological immune responses and human diseases.

     

Maintenance of primary cell cultures of immunocytes from Cacopsylla spp. psyllids: a new in vitro tool for the study of crop pest insects

Primary cell cultures of immunocytes have been developed from the three psyllid species Cacopsylla melanoneura, Cacopsylla pyri (vectors of ‘Candidatus Phytoplasma mali’ and ‘Candidatus Phytoplasma pyri’, respectively) and Cacopsylla crataegi. The medium most suitable of those evaluated was Hert-Hunter 70 (HH70) psyllid medium. In fact, good survival and proliferation of the Cacopsylla immunocytes for over 60 d were observed, with mitosis activities starting at 15-d post culture. Moreover, adhesion and phagocytosis activities were confirmed for all the psyllid cell cultures by functionality tests. Morphological examination of cultured immunocytes revealed the presence of different cell types in all the three psyllid species in accordance to published data about insect immunocytes. The in vitro maintenance of psyllid immunocytes represents a powerful tool for a wide range of applications, especially for psyllid cell biology. In particular, in-depth studies on the biology of psyllids as vector insects as well as analyses to understand the mechanisms behind the interactions with pathogens and symbionts are now possible. These cultures can be used as an in vitro model to study psyllid humoral immune responses, which also will allow in-depth investigations on the abilities of psyllids as vectors of phytoplasmas. All these applications provide new opportunities to develop more focused and specific pest control strategies.     

P物质的免疫调节作用

P物质在外周主要分布于了发出细传入的神经元内。在外周神经末梢释放的P物质参与免疫调节和炎症过程。P物质可以影响淋巴细胞的增殖、免疫球蛋白和细胞因子的合成,并能够调节辅佐细胞的活性和细胞因子的合成以及其他一些免疫细胞的活性。P物质通过以上作用参与调节细胞和体液免疫应答。在外周组织中,P物质能的神经纤维和一些免疫细胞联系密切,许多免疫细胞膜上存在有P物质的特异性受体。这些形态学资料为P物质参与免疫调节提供了证据。一些免疫细胞也能够产生P物质,并以自分泌或／和旁分泌的方式调节免疫细胞的功能。以上资料表明P物质不仅是一种神经肽,也是一种免疫调节因子,是神经系统和免疫系统共同的信使物质。     

Molecular-genetic mechanisms of antigenic variability of pathogenic bacteria

The literature on the molecular genetic mechanisms for antigenic variability of pathogenic bacteria is reviewed. Ability to antigenic variability in any case discussed is considered to be a pathogenicity factor permitting efficient struggle against the immune system of the host-organism. The molecular basis for such variability is instability of the genome structure, coding for highly immunogenic bacterial proteins.     

免疫细胞内源性儿茶酚胺的免疫调节作用

机体内儿茶酚胺（catecholamines,CAs）包括去甲肾上腺素（norepinephrine,NE）、肾上腺素（epinephrine,E）和多巴胺（dopamine,DA）。CAs由神经元和内分泌细胞合成和分泌,其主要功能是调节心血管、呼吸和消化等内脏活动。近三十年来的研究说明,CAs也参与调控机体的免疫功能,但CAs的这种免疫调节作用一般视为神经和内分泌系统调节的介导作用。然而,近年来的研究发现,免疫细胞也能合成CAs,这是对传统观念的一种补充和提高。免疫细胞内存在经典的CAs代谢途径,既有合成CAs的酪氨酸羟化酶（tyrosine hydroxylase,TH）又有降解CAs的单胺氧化酶（monoamine oxidase,MAO）和儿茶酚氧位甲基移位酶（catechol-O-methyl transferase,COMT）。免疫细胞合成的内源性CAs可以调控细胞的增殖、分化、凋亡和细胞因子生成等多种免疫功能。CAs的这些作用可能主要通过自分泌或旁分泌途径作用于免疫细胞上相应受体和细胞内环磷酸腺苷（cyclicAMP,cAMP）实现。细胞内氧化应激机制可能也参与免疫细胞内源性CAs的免疫调节作用。此外,一些自身免疫性疾病如多发性硬化、风湿性关节炎可能也与免疫细胞内CAs的代谢异常有关。上述发现不仅为免疫系统有可能成为除神经和内分泌系统以外的第三个CA能系统提供了证据,而且为免疫系统内源性CAs的功能意义拓展了认识。     

Ganglioside-induced inhibition of in vivo immune response in mice.

In vitro immunomodulatory properties of gangliosides have been well characterized such as the ganglioside-induced modulation of CD4 on T lymphocytes and inhibition of lectin-induced proliferative response of lymphocytes. These findings have led to an interesting suggestion that gangliosides play a role as in vivo immune modulators, although this possibility is not clearly defined yet. We then first confirmed in vitro effects of gangliosides on murine immunocytes and examined in vivo effects of gangliosides on immune response in mice. Murine spleen cells that were treated with a ganglioside mixture (GS) purified from bovine brain exhibited a marked decrease in CD4 expression, while CD8 expression was slightly suppressed. Transplantation of GS-untreated control immunocytes that were isolated from syngeneic mice into the immune suppressed mice by X-ray irradiation restored in vivo immune responses, while GS-treated cells could not. Immune response was assayed by the evaluation of footpad swelling which was induced by immunization with sheep erythrocytes as antigens. Moreover, intramuscular administration of gangliosides into mice suppressed both immediate (Arthus)-type and delayed-type allergic reactions. These results suggest that gangliosides would be potential in vivo immune modulators.     

树免疫细胞体外感染Ⅰ型人免疫缺陷病毒的实验研究

至今可以感染Ⅰ型人免疫缺陷病毒(HIV-1)的动物只有黑猩猩和长臂猿,这严重阻碍了HIV-1的疫苗研究和治疗研究。因此,寻找新的可以感染HIV-1的动物模型成为十分迫切的课题。已知树鼩对许多重要的医学病毒易感,为了探讨树鼩是否可以感染HIV-1,利用不同辅助受体的5种HIV-1病毒株,体外感染云南野生成年树鼩的淋巴细胞和单核/巨噬细胞;同时还用这些病毒感染人外周血淋巴细胞或单核细胞。然后用RT-PCR、PCR和流式细胞术分别进行检测。用RT-PCR方法未检测到感染上清中有病毒粒子的存在,用PCR法未能发现树鼩的这些免疫细胞中有前病毒DNA,用流式细胞术也未能在这些感染HIV-1的树鼩细胞的表面检测到特异抗原;而感染HIV-1的人免疫细胞均为阳性结果。实验结果表明树鼩的这些免疫细胞在体外未能感染上HIV-1,可能的原因是树鼩的这些免疫细胞的HIV-1受体(CD4)和辅助受体(CCR5或CXCR4)与人的免疫细胞差别较大。     

A new pentapeptide compound, PLNPK, ameliorates anti-glomerular basement membrane nephritis in Wistar rats

PLNPK is a pentapeptide compound extracted from pig spleen with a Pro-Leu-Asn-Pro-Lys molecular structure. The spleen is the biggest immune organ in the body, in which there are lots of immunocytes and immune molecules. Our pilot study showed that PLNPK could suppress the transformation and proliferation of T lymphocytes and the production of antibodies in mice. It is widely accepted that most types of glomerulonephritis are immunological diseases caused by the reaction of antigen and antibody. Both humoral immunity and cell-mediated immunity contribute to the progress of these diseases, and suppression of immunoreactions and inflammation is important to ameliorate nephritis. After the immunosuppressive effects of this compound were discovered, this study also examined whether PLNPK had beneficial effects on a rat model of glomerulonephritis. The results suggested PLNPK (200microg/kg/d and 400microg/kg/d) reduced urinary protein excretion, lessened the deposit of autoantibodies along the glomerular basement membrane (GBM), reduced formation of crescent and protein casts, and ameliorated glomerular fibrosis and GBM injury. After treatment with PLNPK (200microg/kg/d and 400microg/kg/d) for 7 days, macrophage infiltration in the glomeruli was markedly reduced. Our results suggest that PLNPK has a beneficial effect on rat anti-GBM nephritis.     

Transcriptome analysis uncovers the autophagy‐mediated regulatory patterns of the immune microenvironment in dilated cardiomyopathy

The relationship between autophagy and immunity has been well studied. However, little is known about the role of autophagy in the immune microenvironment during the progression of dilated cardiomyopathy (DCM). Therefore, this study aims to uncover the effect of autophagy on the immune microenvironment in the context of DCM. By investigating the autophagy gene expression differences between healthy donors and DCM samples, 23 dysregulated autophagy genes were identified. Using a series of bioinformatics methods, 13 DCM‐related autophagy genes were screened and used to construct a risk prediction model, which can well distinguish DCM and healthy samples. Then, the connections between autophagy and immune responses including infiltrated immunocytes, immune reaction gene‐sets and human leukocyte antigen (HLA) genes were systematically evaluated. In addition, two autophagy‐mediated expression patterns in DCM were determined via the unsupervised consensus clustering analysis, and the immune characteristics of different patterns were revealed. In conclusion, our study revealed the strong effect of autophagy on the DCM immune microenvironment and provided new insights to understand the pathogenesis and treatment of DCM.     

Immunomodulation by different types of N-oxides in the hemocytes of the marine bivalve Mytilus galloprovincialis

The potential toxicity of engineered nanoparticles (NPs) for humans and the environment represents an emerging issue. Since the aquatic environment represents the ultimate sink for NP deposition, the development of suitable assays is needed to evaluate the potential impact of NPs on aquatic biota. The immune system is a sensitive target for NPs, and conservation of innate immunity represents an useful basis for studying common biological responses to NPs. Suspension-feeding invertebrates, such as bivalves, are particularly at risk to NP exposure, since they have extremely developed systems for uptake of nano and microscale particles integral to intracellular digestion and cellular immunity. Evaluation of the effects of NPs on functional parameters of bivalve immunocytes, the hemocytes, may help understanding the major toxic mechanisms and modes of actions that could be relevant for different NP types in aquatic organisms.In this work, a battery of assays was applied to the hemocytes of the marine bivalve Mytilus galloprovincialis to compare the in vitro effects of different n-oxides (n-TiO(2), n-SiO(2), n-ZnO, n-CeO(2)) chosen on the basis of their commercial and environmental relevance. Physico-chemical characterization of both primary particles and NP suspensions in artificial sea water-ASW was performed. Hemocyte lysosomal and mitochondrial parameters, oxyradical and nitric oxide production, phagocytic activity, as well as NP uptake, were evaluated. The results show that different n-oxides rapidly elicited differential responses hemocytes in relation to their chemical properties, concentration, behavior in sea water, and interactions with subcellular compartments. These represent the most extensive data so far available on the effects of NPs in the cells of aquatic organisms. The results indicate that Mytilus hemocytes can be utilized as a suitable model for screening the potential effects of NPs in the cells of aquatic invertebrates, and may provide a basis for future experimental work for designing environmentally safer nanomaterials.     

Interrelation of immunity and tissue repair or regeneration

Although tremendous progress has been achieved in understanding the molecular basis of tissue repair and regeneration in diverse model organisms, the tendency of mammals for imperfect healing and scarring rather than regeneration remains unexplained. Moreover, conditions of impaired wound healing, e.g. non-healing skin ulcers associated with diabetes mellitus or vascular disease, as well as excessive scarring, represent major clinical and socio-economical problems. The development of innovative strategies to improve tissue repair and regeneration is therefore an important task that requires a more thorough understanding of the underlying molecular and cellular mechanisms.There is substantial evidence in different model organisms that the immune system is of primary importance in determining the quality of the repair response, including the extent of scarring, and the restoration of organ structure and function. Findings in diverse species support a correlation between the loss of regeneration capacity and maturation of immune competence. However, in recent years, there is increasing evidence on conditions where the immune response promotes repair and ensures local tissue protection. Hence, the relationship between repair and the immune response is complex and there is evidence for both negative and positive roles.We present an overview on recent evidence that highlights the immune system to be key to efficient repair or its failure. First, we summarize studies in different model systems that reveal both promoting and impeding roles of the immune system on the regeneration and repair capacity. This part is followed by a delineation of diverse inflammatory cell types, selected peptide growth factors and their receptors as well as signaling pathways controlling inflammation during tissue repair. Finally, we report on new mechanistic insights on how these inflammatory pathways impair healing under pathological conditions and discuss therapeutic implications.     

Cellular bases for interactions between immunocytes and enteroendocrine cells in the intestinal mucosal barrier of rhesus macaques

The roles of the interactions between nervous, endocrine, and immune systems have been well established in human health and diseases. At present, little is known about the cellular bases for neural-endocrine-immune networks in the gastrointestinal mucosa. In the current study, duodenum, jejunum, ileum, cecum, colon, and rectum autopsies from 15 rhesus macaques and endoscopic duodenal biopsies from 12 rhesus macaques were collected, and the spatial relationships between the endocrine cells and immune cells in the intestinal mucosa were examined by transmission electron microscopy. Eight types of enteroendocrine cells similar to human enterochromaffin cells (EC), D1, G, I, K, L, N, and S cells were found to lie within a one-cell-size distance from immunocytes, in particular the eosinophils in the epithelia or lamina propria. Close apposition of large areas of plasma membranes between many types of enteroendocrine cells and immunocytes, especially between EC, K, S cells and eosinophils, were observed in the epithelia for the first time. These data indicate that complex interactions occur between diverse types of enteroendocrine cells and various immune cells through paracrine mechanisms or via mechanisms dependent on cell-to-cell contact; such interactions might play key roles in maintaining the gut mucosal barrier integrity of rhesus macaques.     

High molecular weight isoforms of growth hormone in cells of the immune system

A substantial body of research exists to support the idea that cells of the immune system produce growth hormone (GH). However, the structure and mechanism of action of lymphocyte-derived GH continues to remain largely unknown. Here we present the results of Western analysis of whole cell extracts showing that different molecular weight isoforms of GH of approximately 100, 65, and 48 kDa can be detected in primary mouse cells of the immune system and in the mouse EL4 cell line. The identity of the 65 and 48 kDa isoforms of GH were confirmed by mass spectrometry. The various isoforms were detected in both enriched T and B spleen cell populations. The large molecular weight isoform appears to reside primarily in the cytoplasm, whereas the lower molecular weight 65 and 48 kDa isoforms were detected primarily in the nucleus. These results also suggest that GH isoforms are induced by oxidative stress. In EL4 cells overexpressing GH, the expression of luciferase controlled by a promoter containing the antioxidant response element is increased almost threefold above control. The data suggest that the induction of isoforms of the GH molecule in cells of the immune system may be an important mechanism of adaptation and/or protection of lymphoid cells under conditions of oxidative stress.