Immune Checkpoints of the B7 Family. Part 2. Representatives of the B7 Family B7-H3, B7-H4, B7-H5, B7-H6, B7-H7, and ILDR2 and Their Receptors

Russian Journal of Bioorganic Chemistry - Immune checkpoints regulate polarity, strength, and termination of the immune response. The leading roles in these processes are played by molecules of the...     

Generation and characterization of B7-H4/B7S1/B7x-deficient mice

Members of the B7 family of cosignaling molecules regulate T-cell proliferation and effector functions by engaging cognate receptors on T cells. In vitro and in vivo blockade experiments indicated that B7-H4 (also known as B7S1 or B7x) inhibits proliferation, cytokine production, and cytotoxicity of T cells. B7-H4 binds to an unknown receptor(s) that is expressed on activated T cells. However, whether B7-H4 plays nonredundant immune regulatory roles in vivo has not been tested. We generated B7-H4-deficient mice to investigate the roles of B7-H4 during various immune reactions. Consistent with its inhibitory function in vitro, B7-H4-deficient mice mounted mildly augmented T-helper 1 (Th1) responses and displayed slightly lowered parasite burdens upon Leishmania major infection compared to the wild-type mice. However, the lack of B7-H4 did not affect hypersensitive inflammatory responses in the airway or skin that are induced by either Th1 or Th2 cells. Likewise, B7-H4-deficient mice developed normal cytotoxic T-lymphocyte reactions against viral infection. Thus, B7-H4 plays a negative regulatory role in vivo but the impact of B7-H4 deficiency is minimal. These results suggest that B7-H4 is one of multiple negative cosignaling molecules that collectively provide a fine-tuning mechanism for T-cell-mediated immune responses.     

Immune Checkpoints of the B7 Family. Part 1. General Characteristics and First Representatives: B7-1, B7-2, B7-H1, B7-H2, and B7-DC

Russian Journal of Bioorganic Chemistry - T-cell response along with humoral response compose the basis of acquired immunity. Effective activation of T lymphocytes requires at least two signals....     

Evolution of the B7 family: co-evolution of B7H6 and NKp30, identification of a new B7 family member, B7H7, and of B7's historical relationship with the MHC

The B7 family of genes is essential in the regulation of the adaptive immune system. Most B7 family members contain both variable (V)- and constant (C)-type domains of the immunoglobulin superfamily (IgSF). Through in silico screening of the Xenopus genome and subsequent phylogenetic analysis, we found novel genes belonging to the B7 family, one of which is the recently discovered B7H6. Humans and rats have a single B7H6 gene; however, many B7H6 genes were detected in a single large cluster in the Xenopus genome. The B7H6 expression patterns also varied in a species-specific manner. Human B7H6 binds to the activating natural killer receptor, NKp30. While the NKp30 gene is single-copy and maps to the MHC in most vertebrates, many Xenopus NKp30 genes were found in a cluster on a separate chromosome that does not harbor the MHC. Indeed, in all species so far analyzed from sharks to mammals, the number of NKp30 and B7H6 genes correlates well, suggestive of receptor-ligand co-evolution. Furthermore, we identified a Xenopus-specific B7 homolog (B7HXen) and revealed its close linkage to B2M, which we have demonstrated previously to have been originally encoded in the MHC. Thus, our study provides further proof that the B7 precursor was included in the proto MHC. Additionally, the comparative analysis revealed a new B7 family member, B7H7, which was previously designated in the literature as an unknown gene, HHLA2.     

人B7—1和B7—2cDNA的克隆及鉴定

目的：为探索性构建全新型重组人B7－PE40绿脓杆菌外毒素融合蛋白以长期诱导免疫耐受,本研究从急性B淋巴细胞白血病细胞株Raji中隆N－末端分别缺失34和16个氨基酸的人B7－1和B7－2基因胞外区,并构建含此基因的重组质粒。方法：根据B7－1和B7－2基因序列设计合成可增B7－1和B7－2cDNA的特异性引物,用RT－PCR的方法从Raji细胞总RNA中扩增B7－1和B7－2cDNA,并克隆至pGEM－T载体中,经酶切鉴定后再进行序列分析。结果和结论：从Raji细胞中扩增出预期 的624和675bp的B7－1和B7－2cDNA,将其克隆至pGEM-T载体中,分别经EcoRI/HindⅢ和BamHI/SphI双酶切电泳和序列分析确证,为进一步构建人B7－PE40外毒素融合蛋白奠定了基础。     

Differential binding properties of B7-H1 and B7-DC to programmed death-1

Programmed death-1 (PD-1) is a negative regulatory receptor expressed on activated T and B cells. Two ligands for PD-1, B7-H1 (PD-L1) and B7-DC (PD-L2), have been identified, but their binding properties have not been characterized yet. In this study, we generated soluble Ig fusion proteins of these molecules and examined the kinetics and relative affinities of the interactions between B7-H1 or B7-DC and PD-1 by flow cytometry and surface plasmon resonance. The interaction of B7-DC/PD-1 exhibited a 2-6-fold higher affinity and had different association/dissociation kinetics compared with the interaction of B7-H1/PD-1. Our results suggest that the differential binding properties of B7-H1 and B7-DC may be responsible for differential contributions of these two PD-1 ligands to immune responses.     

B7家族的新成员

T细胞的活化需要共刺激分子和其受体及特异性抗原与T细胞受体的双信号作用。B7家族成员是重要的共刺激分子,除B7－1和B7－2,新近又发现了一些新成员：B7RP－1（又名B7h,GL50或ICOSL）为鼠ICOS（inducible costimulator,CD28家族的第三位成员）的配体,其人的同源物命名为B7－2（也称为GL50或ICOSL）,它对TG细胞生长及细胞因子产生的共刺激作用已明显,B7－H1（也称PD－1L）,B7H3是一类不与ICOS结合的B7家族新成员。现已证实。现已证实,这些分子与其受体之间的作用在T细胞增殖及发挥效应中扮演重要角色,它们在许多疾病中的作用也引起学者的普遍关注。     

The B7-CD28 superfamily

The B7-1/B7-2-CD28/CTLA-4 pathway is crucial in regulating T-cell activation and tolerance. New B7 and CD28 molecules have recently been discovered and new pathways have been delineated that seem to be important for regulating the responses of previously activated T cells. Several B7 homologues are expressed on cells other than professional antigen-presenting cells, indicating new mechanisms for regulating T-cell responses in peripheral tissues. Some B7 homologues have unknown receptors, indicating that other immunoregulatory pathways remain to be described. Here, we summarize our current understanding of the new members of the B7 and CD28 families, and discuss their therapeutic potential.     

Lack of B7-1 and B7-2 costimulatory molecules modulates the severity of group B Streptococcus-induced arthritis

Group B streptococci have long been known as a leading cause of life-threatening infection in neonates, young infants and pregnant women, and recently have been recognized as an ever-growing cause of serious invasive infections in nonpregnant adults. B7-1 and B7-2 are two molecules with immunoregulatory functions implicated in the differentiation of T cells. The present study examined the role of B7-1 and B7-2 during group B streptococci-induced sepsis and arthritis. B7-1- or B7-2-deficient mice were infected with 1 × 10⁷ streptococci, and mortality, appearance of arthritis, growth of microorganisms in the organs and cytokine profile were assessed. Lack of B7-1 was associated with amelioration of arthritis, while worsening of articular lesions was found in B7-2 deficient mice, in comparison to controls. Amelioration of arthritis in B7-1 deficient mice was accompanied by a lower local production of IL-1 β and IL-18, and increase in IL-4 and IL-10 secretion. On the contrary, B7-2 deficient mice showed an higher proinflammatory cytokine production and lower IL-10 secretion than controls. Taken together, our results provide evidence that signaling delivered by B7-1 and B7-2 plays a role in determining the outcome of group B streptococcal induced arthritis, likely due to the different local secretory pattern.     

B7, a B-cell-restricted antigen that identifies preactivated B cells

After activation with antigen or mitogen, a number of cell surface proteins appear that are not expressed on resting B cells. To date, a number of B lineage restricted and associated activation antigens have been reported that appear at distinct intervals after in vitro activation. In this report, we describe a new B lineage restricted activation antigen (B7) that appears within 24 hr of in vitro stimulation. The expression of B7 antigen, which is detected on a minor subpopulation of B cells isolated from peripheral blood and lymphoid tissues, is strongly induced following stimulation with either anti-immunoglobulin or Epstein-Barr virus. In contrast, B7 was not detected on resting or activated T cells or monocytes. The B7 antigen was expressed on a subset of B cell lines and B cell neoplasms, but was not detected on leukemias and lymphomas of T cell or myeloid origin. B7 was distinguished from other B cell restricted and associated activation antigens by its unique pattern of expression on a variety of hemopoietic cell lines. The biochemical characterization of B7, that it is a single chain protein of 60 kDa, further distinguishes it from other B cell activation antigens. The functional importance of the B7 antigen was demonstrated when splenic B cells were fractionated into the B7+ and B7- populations. The peak of proliferation in response to anti-Ig, appeared earlier within the B7+ population. These studies suggest that B7 antigen identifies a subpopulation of B cells that are preactivated or primed in vivo, and have an accelerated response to subsequent activation via cross-linking of surface Ig.     

ICOS-induced B7h shedding on B cells is inhibited by TLR7/8 and TLR9

We report in this study that B7h, the ligand for the ICOS costimulatory receptor, is rapidly shed from mouse B cells following either ICOS binding or BCR engagement. Shedding occurs through proteolytic cleavage that releases the extracellular ICOS-binding region of B7h. Prior exposure of B7h-expressing APCs to ICOS-expressing cells inhibits their subsequent ability to costimulate IFN-gamma and IL-4 production from CD4+ T cells. Shedding is regulated as TLR7/8 and TLR9 ligands inhibit B7h shedding. A shedding-resistant B7h mutant elicits greater costimulation of IFN-gamma production from CD4+ T cells than does wild-type B7h. These data define shedding of B7h as a novel mechanism for controlling costimulatory signaling by B7-CD28 family members that is regulated on B cells by TLR signaling.     

The B7 family of immune-regulatory ligands

The B7 family consists of structurally related, cell-surface protein ligands, which bind to receptors on lymphocytes that regulate immune responses. Activation of T and B lymphocytes is initiated by engagement of cell-surface, antigen-specific T-cell receptors or B-cell receptors, but additional signals delivered simultaneously by B7 ligands determine the ultimate immune response. These 'costimulatory' or 'coinhibitory' signals are delivered by B7 ligands through the CD28 family of receptors on lymphocytes. Interaction of B7-family members with costimulatory receptors augments immune responses, and interaction with coinhibitory receptors attenuates immune responses. There are currently seven known members of the family: B7.1 (CD80), B7.2 (CD86), inducible costimulator ligand (ICOS-L), programmed death-1 ligand (PD-L1), programmed death-2 ligand (PD-L2), B7-H3, and B7-H4. Members of the family have been characterized predominantly in humans and mice, but some members are also found in birds. They share 20-40% amino-acid identity and are structurally related, with the extracellular domain containing tandem domains related to variable and constant immunoglobulin domains. B7 ligands are expressed in lymphoid and non-lymphoid tissues. The importance of the family in regulating immune responses is shown by the development of immunodeficiency and autoimmune diseases in mice with mutations in B7-family genes. Manipulation of the signals delivered by B7 ligands has shown potential in the treatment of autoimmunity, inflammatory diseases and cancer.     

Expression of B7-H1 and B7-DC on the airway epithelium is enhanced by double-stranded RNA

Viral infection in the airway provokes various immune responses, including Th1 and Th2 responses, which are partly initiated by double-stranded RNA (dsRNA), a viral product for its replication. B7-H1 (PD-L1) and B7-DC (PD-L2) are B7-family molecules that bind to programmed death-1 (PD-1) on lymphocytes and are implicated in peripheral tolerance. We investigated the effect of dsRNA on the expression of B7-H1 and B7-DC on airway epithelial cell lines. B7-H1 and B7-DC were constitutively expressed on the cells, and their expression was profoundly upregulated by stimulation with an analog of viral dsRNA, polyinosinic-polycytidylic acid. B7-H1 and B7-DC were also upregulated by stimulation with IFN-gamma, IL-13, and the supernatant from T cell clones. A relatively high concentration of dexamethasone (1 microM) was required to suppress the upregulation of B7-H1 or B7-DC. These results suggest that epithelial B7-H1 and B7-DC play a role in virus-associated immune responses in the airways.     

Functional equivalency of B7-1 and B7-2 for costimulating plasmid DNA vaccine-elicited CTL responses

A costimulatory signal in addition to an Ag-specific stimulus is required for optimal activation of T lymphocytes. CD28, the primary positive costimulatory receptor on T cells, has two identified ligands, B7-1 and B7-2. Whether B7-1 and B7-2 have identical, overlapping, or distinct functions remains unresolved. In this study, we show that mice lacking B7-2 were unable to generate CTL responses following immunization with a plasmid DNA vaccine. The ability of these B7-2-deficient mice to generate CTL responses following plasmid gp120 DNA vaccination was fully reconstituted by coadministering either a plasmid expressing B7-2 or B7-1. Moreover, the ability to generate CTL responses following plasmid DNA vaccination in mice lacking both B7-1 and B7-2 could be reconstituted by administering either plasmid B7-1 or plasmid B7-2 with the vaccine construct. These data demonstrate that either B7-1 or B7-2 administered concurrently with a plasmid DNA vaccine can fully costimulate vaccine-elicited CTL responses. Functional differences between B7-1 and B7-2 observed in vivo therefore may not reflect inherent differences in the interactions of CD28 with these ligands.     

Structure and function of ATP7A and ATP7B proteins--Cu-transporting ATPases

Living organisms have developed refined and geneticaly controlled mechanisms of the copper metabolism and transport. ATP7A and ATP7B proteins play the key role in copper homeostasis in the organism. Both proteins are P-type Cu-transporting ATPases and use the energy of ATP hydrolysis to transfer the copper ions across the cellular membranes. Both proteins are localised in Golgi aparatus and involved in regulation of overall copper status in the body and their function is the export of excess copper from the cells and delivery of copper ions to Cu-dependent enzymes. Moreover in organism Cu-transporting ATPases are involved in absorption of dietary copper, Cu removal with the bile, placental copper transport and its secretion to the milk during lactation. Moreover it is known that Cu-transporting ATPases play a role in generation of anti-cancer drug resistance. Disturbances of ATP7A and ATP7B function caused by mutations lead to severe metabolic diseases Menkes and Wilson diseases, respectively.