Starvation Reveals Maintenance Cost of Humoral Immunity

Susceptibility to pathogens and genetic variation in disease resistance is assumed to persist in nature because of the high costs of immunity. Within immunity there are different kinds of costs. Costs of immunological deployment, the costs of mounting an immune response, are measured as a change in fitness following immunological challenge. Maintenance costs of immunity are associated with investments of resources into the infrastructure of an immune system and keeping the system at a given level of readiness in the absence of infection. To demonstrate the costs of immunological maintenance in the absence of infection is considered more difficult. In the present study we examined the maintenance costs of the immune system in lines of Drosophila melanogaster that differed in their antibacterial innate immune response under starved and non-starved conditions. Immunodeficient mutant flies that have to invest less in the immunological maintenance were found to live longer under starvation than wild type flies, whereas the opposite was found when food was provided ad libitum. Our study provides evidence for the physiological cost of immunological maintenance and highlights the importance of environmental variation in the study of evolutionary trade-offs.     

Functioning of opisthorchiasis-tuberculosis parasitocenosis at different stages of invasion (experimental investigation)

In experiments on golden hamsters the mutual influence of the co-members of opisthorchiasis-tuberculosis parasitocenosis has been established. This mutual influence depends on the stage of invasion and the state of the immune reactivity of the host. After additional immunization of the experimental animals with sheep red blood cells (SRBC) parasitocenosis formed special immune response different from those observed in both opisthorchiasis and tuberculosis. In cases of mixed pathology (opisthorchiasis-tuberculosis), reproduced at the acute stage of invasion, additional body reserves are seemingly switched on, thus leading the immunity system to increased functioning with respect to specific and heterologous antigens. In the chronization of invasion a decreased formation of antibodies to heterologous antigens (SRBC) together with a simultaneous decreased level of specific antiopisthorchiasis and antituberculosis immune response suggest that the reserve capacities of the host immune system, especially of humoral factors, are exhausted.     

The role of cytokines in immunological tolerance: potential for therapy

Current immunosuppression protocols, although often effective, are nonspecific and therefore hazardous. Consequently, immunological tolerance that is antigen specific and does not globally depress the patient's immune system has become one of the Holy Grails of immunology. Since the discovery that cytokines have immunomodulatory effects, extensive research has investigated the potential of these molecules to induce and maintain specific immunological tolerance in the context of transplantation, allergy and autoimmunity. In this article, we review the possible mechanisms by which cytokines can modulate the immune response and the animal models that frequently confound the theory that a single cytokine, or group of cytokines, can induce tolerance in a predictable manner. Finally, we discuss the role of cytokines at a paracrine level, particularly in the context of inducing and maintaining antigen-specific, regulatory T cells with the clinical potential to suppress specific immune responses.     

The role of macrophages in mediating the immunostimulating effects of low-frequency ultrasound

The action of low-frequency ultrasound on the body has been shown to lead to the stimulation of specific immune response, as well as immunological memory cells. The effects of low-frequency ultrasound are seemingly realized through the macrophage system of immunity, i. e. the action of ultrasound leads to the stimulation of the functional activity of macrophages, their metabolism, while blocking the macrophage system of immunity with carraginal abolishing the effects of ultrasound.     

Immunological mutants of the mouse

Mutations at more than 30 loci in mice have been shown to cause deleterious effects on the immune system. Immunologic defects caused by certain of these mutations are determined at the level of hematopoietic progenitor cells or at the level of hematopoietic cell-stromal cell interactions. The immunological mutants described in this paper serve as experimental tools with which to increase our understanding of the development and regulation of the mammalian immune system.     

The interaction of the thyroid gland, pineal gland and immune system in chicken

The interaction of immunological system, thyroid and pineal gland was studied in 5-week old males of Gallus domesticus. Several morphometrical parameters in pineal and thyroid glands were measured after bird immunization with human red blood cells and/or treatment with melatonin or seduxen, melatonin receptor blocker. The peak of the thyroid activity was found on Day 7 after immunization. The immune system appears to directly activate the thyroid gland only in the presence of certain level of melatonin. We suggest that the melatonin mechanism of action includes the enhancement of thyroid gland sensitivity to immune factors. Seduxen prevented the stimulatory influence of the immune system on the thyroid gland.     

Therapeutic targets and new directions for antibodies developed for ovarian cancer

Antibody therapeutics against different target antigens are widely used in the treatment of different malignancies including ovarian carcinomas, but this disease still requires more effective agents. Improved understanding of the biological features, signaling pathways, and immunological escape mechanisms involved in ovarian cancer has emerged in the past few years. These advances, including an appreciation of the cross-talk between cancer cells and the patient's immune system, have led to the identification of new targets. In turn, potential antibody treatments with various mechanisms of action, including immune activation or toxin-delivery, that are directed at these targets have been developed. Here, we identify established as well as novel targets for antibodies in ovarian cancer, and discuss how they may provide fresh opportunities to identify interventions with enhanced therapeutic potential.     

The effect of energy reserves and food availability on optimal immune defence

In order to avoid both starvation and disease, animals must allocate resources between energy reserves and immune defence. We investigate the optimal allocation. We find that animals with low reserves choose to allocate less to defence than animals with higher reserves because when reserves are low it is more important to increase reserves to reduce the risk of starvation in the future. In general, investment in immune defence increases monotonically with energy reserves. An exception is when the animal can reduce its probability of death from disease by reducing its foraging rate. In this case, allocation to immune defence can peak at intermediate reserves. When food changes over time, the optimal response depends on the frequency of changes. If the environment is relatively stable, animals forage most intensively when the food is scarce and invest more in immune defence when the food is abundant than when it is scarce. If the environment changes quickly, animals forage at low intensity when the food is scarce, but at high intensity when the food is abundant. As the rate of environmental change increases, immune defence becomes less dependent on food availability. We show that the strength of selection on reserve-dependent immune defence depends on how foraging intensity and immune defence determine the probability of death from disease.     

抑制性寡脱氧核苷酸的生物学效应及研究进展

DNA对于机体免疫系统具有很多复杂的作用。存在于细菌DNA中的刺激性CpG基序能够促进机体免疫细胞分泌多种细胞因子,使机体产生偏向Th1方向的免疫应答,而抑制性寡脱氧核苷酸（oligodeoxynucleotide,ODN）可以选择性阻断刺激性CpG诱导的免疫激活作用。抑制性ODN按其结构不同大致分为三类,它可能通过影响细胞对CpG-S的结合及摄取、降低CpG-S特异性受体TLR9的表达发挥抑制作用。本综述主要介绍抑制性ODN的结构特征、作用机制和它在一些疾病中发挥的作用。     

Mode of action of adjuvants: Implications for vaccine safety and design

For decades, the search for new vaccine adjuvants has been largely empirical. A series of new adjuvants and related formulations are now emerging that are acting through identified immunological mechanisms. Understanding adjuvant mechanism of action is crucial for vaccine design, since this allows for directing immune responses towards efficacious disease-specific effector mechanisms and appropriate memory. It is also of great importance to build new paradigms for assessing adjuvant safety at development stages and at regulatory level. This report reflects the conclusions of a group of scientists from academia, regulatory agencies and industry who attended a conference, organized by the International Association for Biologicals (IABS), on the mode of action of adjuvants on 29–30 April 2010 in Bethesda, Maryland, USA, particularly focusing on how understanding adjuvants mode of action can impact on the assessment of vaccine safety and help to develop target-specific vaccines. More information on the conference output can be found on the IABS website, http://www.iabs.org/.     

The effect of immune antibodies and the xanthine oxidase-xanthine enzymatic link on Vibrio cholerae

As revealed in experiments on V. cholerae, highly diluted cholera antiserum enhanced the inhibitory action of the enzymatic link xanthine oxidase-xanthine-Fe2+ on the multiplication of V. cholerae, while low dilutions of the antiserum weakened this action. Normal rabbit serum produced no such effect. The antivibrionic effectiveness of the immune molecular cycle, viz. antiserum--the xanthine oxidase enzymatic link, was found to depend also on the concentration of xanthine. Immune antibodies to cholera antigens activated the bacteriostatic action of the enzymatic link at the concentration of xanthine oxidase equal to 0.0125 g/l and its bactericidal action at the concentration of xanthine oxidase equal to 0.025 g/l. In this article the values of the specificity indices of immune interaction and immunological effectiveness, characterizing the effectiveness of immune molecular cycles (antibodies--the xanthine oxidase enzymatic link), are presented.     

Lipocalins as allergens

The term allergy refers to clinical conditions caused by an inappropriate immune response to innocuous proteins in genetically predisposed persons. Allergens of animal origin are responsible for a significant proportion of allergies. In recent years, it has become evident that practically all respiratory animal allergens characterized at the molecular level belong to the lipocalin family of proteins. The current list comprises the major allergens of horse, cow, dog, mouse, rat and cockroach as well as beta-lactoglobulin of cow's milk. While the molecular structure of all these allergens is known, far less information is available regarding their immunological characteristics. Knowing the way the immune system recognizes these allergens and reacts to them might, however, be the key for discovering the common denominator of the allergenicity of lipocalins. The human body contains numerous endogenous lipocalins, and the immune system has to adapt to their presence. We have proposed that under these conditions the immune response against the lipocalin allergens which are structurally related to endogenous lipocalins might be the pathway to allergy in genetically predisposed persons. The same might well apply also to other allergens with homologous endogenous counterparts.     

Effect of low-molecular toxic substances on the organs of the immune system in mothers and their offspring

Administration of benzpirene to the mother is accompanied with activation of B-and decrease in T-links of immune activity both in the mother and offspring. The lymphoid organs in the animals, not subjected antenatally to benziprene action, but given the substance after birth, undergo destabilization and are not ready to administration of this polycyclic hydrocarbonic compound. This produces their hypoplasia. It is quite possible, that under this condition the activity of the cellular link of immunity decreases, and the humoral one is stimulated. Certain morphofunctional connections are supposed to exist between the immune systems of the mother and the fetus. The antenatal action of benzpirene causes a responsive reaction in the offspring as an immunological commemoration, and it ensures the level of the immune response.     

肠道黏膜免疫与炎症小体的研究进展

肠道是机体消化器官,为机体生命活动提供所需要的营养。肠道免疫系统有独特的功能,在抵抗潜在病原体侵入机体过程中发挥至关重要的作用。炎症小体是机体天然免疫系统中重要的蛋白复合体感受器,参与病原体引起的宿主防御反应,并在维持肠道免疫稳态中发挥关键作用。本文综述了肠道黏膜免疫系统及炎症小体在肠道免疫中的作用。     

Problem of specific and nonspecific factors in the induction and regulation of immunological reactions

The functional unity of the specific and nonspecific mechanisms of immunological reactions has been shown on the basis of our own investigations and the published data. As revealed in this study, during the formation of immune response smooth transition from the nonspecific level to the specific one occurs. First, the factors of nonspecific protection are switched on, then intermediate reactions develop, further antibodies are synthesized, etc. At any level of immune response its regulation by nonspecific immunomodulators is possible, their influence controlled by a complex of reactions of the neuroendocrine system, also carrying the elements of nonspecificity and specificity.     

An overview of cancer immunotherapy

The survival of patients with cancer has improved steadily but incrementally over the last century, with the advent of effective anticancer treatments such as chemotherapy and radiotherapy. However, the majority of patients with metastatic disease will not be cured by these measures and will eventually die of their disease. New and more effective methods of treating these patients are required urgently. The immune system is a potent force for rejecting transplanted organs or microbial pathogens, but effective spontaneous immunologically induced cancer remissions are very rare. In recent years, much has been discovered about the mechanisms by which the immune system recognizes and responds to cancers. The specific antigens involved have now been defined in many cases. Improved adjuvants are available. Means by which cancer cells overcome immunological attack can be exploited and overcome. Most importantly, the immunological control mechanisms responsible for initiating and maintaining an effective immune response are now much better understood. It is now possible to manipulate immunological effector cells or antigen-presenting cells ex vivo in order to induce an effective antitumour response. At the same time, it is possible to recruit other aspects of the immune system, both specific (e.g. antibody responses) and innate (natural killer cells and granulocytes).     

Energetic reserves, leptin and testosterone: a refinement of the immunocompetence handicap hypothesis

The immunocompetence handicap hypothesis (ICHH) assumes that testosterone (T), required for the expression of sexual traits, can also incur a cost due to its immunosuppressive properties. However, T-dependent immunosuppression could also arise as an indirect consequence of energy reallocation from the immune system to other metabolic demands. Leptin is mostly produced in lipogenic tissues and its circulating level is positively correlated with the amount of lipid reserves. Leptin also has an important role as immunoenhancer and we suggest that this hormone could play a role as a mediator of the immunosuppressive effect of testosterone. In particular, we propose that only the individuals able to maintain large lipid reserves (with high leptin levels), while sustaining high testosterone levels, might be able to develop sexual displays without an impairment of their immune defences. Here, we tested one of the assumptions underlying this extension of the ICHH: leptin administration should attenuate testosterone-induced immunosuppression. T-implanted and control male zebra finches (Taeniopygia guttata) received daily injections of leptin or phosphate buffered saline. T-implants initially depressed the phytohaemagglutinin-induced immune response. However, T-birds injected with leptin enhanced their immune response to the level of control birds. These results open a new perspective on the study of the ICHH.     

Senescence in immune priming and attractiveness in a beetle

Age‐related decline in immune activity is referred to as immunosenescence and has been observed for both the adaptive immune response of vertebrates and the innate immune system of invertebrates. Because maintaining a basic level of immune defence and mounting an immune response is costly, optimal investment in immune function should vary over a wide range of individual states such as the individual’s age. In this study, we tested whether the immune response and immunological priming within individuals become less efficient with age using mealworm beetles, Tenebrio molitor, as a model organism. We also tested whether ageing and immunological priming affected the odours produced by males. We found that young males of T. molitor were capable of mounting an immune response a sterile nylon monofilament implant with the potential to exhibit a simple form of immune memory through mechanisms of immune priming. Older males did not increase their immune response to a second immune challenge, which negatively affected their sexual attractiveness and remaining life span. Our results indicate that the immune system of older males in T. molitor is less effective, suggesting complex evolutionary trade‐offs between ageing, immune response and sexual attractiveness.     

The nonspecific changes in the immune system to the administration of the membrane-ribosomal fraction of the causative agent of pseudotuberculosis

Nonspecific changes in different elements of the immune system of animals under the action of Y. pseudotuberculosis membrane-ribosomal fraction (MRF) with high protective potency have been studied for the purpose of the analysis of the preparation for immunological safety. MRF has been shown to produce no changes in humoral immune response to antigens of different nature or to enhance this response, to produce no essential effect on the intensity of the reaction of delayed hypersensitivity to sheep red blood cells and to stimulate phagocytic processes in peritoneal macrophages and polymorphonuclear leukocytes.