Lymphocytes and Macrophages Are Infected by Theileria equi,but T Cells and B Cells Are Not Required to Establish Infection In Vivo

Theileria equi has a biphasic life cycle in horses, with a period of intraleukocyte development followed by patent erythrocytic parasitemia that causes acute and sometimes fatal hemolytic disease. Unlike Theileria spp. that infect cattle (Theileria parva and Theileria annulata), the intraleukocyte stage (schizont) of Theileria equi does not cause uncontrolled host cell proliferation or other significant pathology. Nevertheless, schizont-infected leukocytes are of interest because of their potential to alter host cell function and because immune responses directed against this stage could halt infection and prevent disease. Based on cellular morphology, Theileria equi has been reported to infect lymphocytes in vivo and in vitro, but the specific phenotype of schizont-infected cells has yet to be defined. To resolve this knowledge gap in Theileria equi pathogenesis, peripheral blood mononuclear cells were infected in vitro and the phenotype of infected cells determined using flow cytometry and immunofluorescence microscopy. These experiments demonstrated that the host cell range of Theileria equi was broader than initially reported and included B lymphocytes, T lymphocytes and monocyte/macrophages. To determine if B and T lymphocytes were required to establish infection in vivo, horses affected with severe combined immunodeficiency (SCID), which lack functional B and T lymphocytes, were inoculated with Theileria equi sporozoites. SCID horses developed patent erythrocytic parasitemia, indicating that B and T lymphocytes are not necessary to complete the Theileria equi life cycle in vivo. These findings suggest that the factors mediating Theileria equi leukocyte invasion and intracytoplasmic differentiation are common to several leukocyte subsets and are less restricted than for Theileria annulata and Theileria parva. These data will greatly facilitate future investigation into the relationships between Theileria equi leukocyte tropism and pathogenesis, breed susceptibility, and strain virulence.     

Recombinant glycoproteins that inhibit complement activation and also bind the selectin adhesion molecules

Soluble human complement receptor type 1 (sCR1, TP10) has been expressed in Chinese hamster ovary (CHO) DUKX-B11 cells and shown to inhibit the classical and alternative complement pathways in vitro and in vivo. A truncated version of sCR1 lacking the long homologous repeat-A domain (LHR-A) containing the C4b binding site has similarly been expressed and designated sCR1[desLHR-A]. sCR1[desLHR-A] was shown to be a selective inhibitor of the alternative complement pathway in vitro and to function in vivo. In this study, sCR1 and sCR1[desLHR-A] were expressed in CHO LEC11 cells with an active alpha(1,3)-fucosyltransferase, which makes possible the biosynthesis of the sialyl-Lewisx (sLex) tetrasaccharide (NeuNAcalpha2-3Galbeta1-4(Fucalpha1-3)GlcNAc) during post-translational glycosylation. The resulting glycoproteins, designated sCR1sLex and sCR1[desLHR-A]sLex, respectively, retained the complement regulatory activities of their DUKX B11 counterparts, which lack alpha(1-3)-fucose. Carbohydrate analysis of purified sCR1sLex and sCR1[desLHR-A]sLex indicated an average incorporation of 10 and 8 mol of sLex/mol of glycoprotein, respectively. sLex is a carbohydrate ligand for the selectin adhesion molecules. sCR1sLex was shown to specifically bind CHO cells expressing cell surface E-selectin. sCR1[desLHR-A]sLex inhibited the binding of the monocytic cell line U937 to human aortic endothelial cells, which had been activated with tumor necrosis factor-alpha to up-regulate the expression of E-selectin. sCR1sLex inhibited the binding of U937 cells to surface-adsorbed P-selectin-IgG. sCR1sLex and sCR1[desLHR-A]sLex have thus demonstrated both complement regulatory activity and the capacity to bind selectins and to inhibit selectin-mediated cell adhesion in vitro.     

中国的炭疽杆菌DNA分型及其地理分布

炭疽广泛分布于中国各地,特别是西部地区,并经常造成人畜疾病,在一项合作研究中,用多位点VNTR分析（MLVA）对从1952-1998年自中国主要地理流行区域分离的病人,病畜和土壤等来源的炭疽杆菌进行了基因分型,MLVA分析结果揭示了21种新的基因型,其等位基因组合在以前世界范围分离物的研究中未曾发现,此外,分离物的分群显示,A3b组是地理上最广泛分布的基因组,说明该组可能是中国的“地方流行株”。而来自古丝绸之路重要贸易中心新疆的大量分离株其基因型特别分散。     

MicroRNAs in systemic rheumatic diseases

MicroRNAs (miRNAs) are endogenous, non-coding, single-stranded RNAs about 21 nucleotides in length. miRNAs have been shown to regulate gene expression and thus influence a wide range of physiological and pathological processes. Moreover, they are detected in a variety of sources, including tissues, serum, and other body fluids, such as saliva. The role of miRNAs is evident in various malignant and nonmalignant diseases, and there is accumulating evidence also for an important role of miRNAs in systemic rheumatic diseases. Abnormal expression of miRNAs has been reported in autoimmune diseases, mainly in systemic lupus erythematosus and rheumatoid arthritis. miRNAs can be aberrantly expressed even in the different stages of disease progression, allowing miRNAs to be important biomarkers, to help understand the pathogenesis of the disease, and to monitor disease activity and effects of treatment. Different groups have demonstrated a link between miRNA expression and disease activity, as in the case of renal flares in lupus patients. Moreover, miRNAs are emerging as potential targets for new therapeutic strategies of autoimmune disorders. Taken together, recent data demonstrate that miRNAs can influence mechanisms involved in the pathogenesis, relapse, and specific organ involvement of autoimmune diseases. The ultimate goal is the identification of a miRNA target or targets that could be manipulated through specific therapies, aiming at activation or inhibition of specific miRNAs responsible for the development of disease.     

Frequent coexistence of anti-topoisomerase I and anti-U1RNP autoantibodies in African American patients associated with mild skin involvement: a retrospective clinical study

Introduction  

The presence of anti-topoisomerase I (topo I) antibodies is a classic scleroderma (SSc) marker presumably associated with a unique clinical subset. Here the clinical association of anti-topo I was reevaluated in unselected patients seen in a rheumatology clinic setting.     

Selection of a Rare Neutralization-Resistant Variant following Passive Transfer of Convalescent Immune Plasma in Equine Infectious Anemia Virus-Challenged SCID Horses

Vaccines preventing HIV-1 infection will likely elicit antibodies that neutralize diverse strains. However, the capacity for lentiviruses to escape broadly neutralizing antibodies (NAbs) is not completely understood, nor is it known whether NAbs alone can control heterologous infection. Here, we determined that convalescent immune plasma from a horse persistently infected with equine infectious anemia virus (EIAV) neutralized homologous virus and several envelope variants containing heterologous principal neutralizing domains (PND). Plasma was infused into young horses (foals) affected with severe combined immunodeficiency (SCID), followed by challenge with a homologous EIAV stock. Treated SCID foals were protected against clinical disease, with complete prevention of infection occurring in one foal. In three SCID foals, a novel neutralization-resistant variant arose that was found to preexist at a low frequency in the challenge inoculum. In contrast, SCID foals infused with nonimmune plasma developed acute disease associated with high levels of the predominant challenge virus. Following transfer to an immunocompetent horse, the neutralization-resistant variant induced a single febrile episode and was subsequently controlled in the absence of type-specific NAb. Long-term control was associated with the presence of cytotoxic T lymphocytes (CTL). Our results demonstrate that immune plasma with neutralizing activity against heterologous PND variants can prevent lentivirus infection and clinical disease in the complete absence of T cells. Importantly, however, rare neutralization-resistant envelope variants can replicate in vivo under relatively broad selection pressure, highlighting the need for protective lentivirus vaccines to elicit NAb responses with increased breadth and potency and/or CTL that target conserved epitopes.Development of an effective vaccine will be critical in the efforts to control the human immunodeficiency virus type 1 (HIV-1) pandemic. Unfortunately, vaccines evaluated in completed human efficacy trials have shown moderate to no protective effects, and, clearly, much more work is needed to define the correlates of lentivirus immune protection. Although these correlates are still not entirely known, vaccine strategies that elicit antibodies with broad neutralizing activity are currently of considerable interest, and it is widely believed that HIV-1 envelope glycoproteins that induce broadly neutralizing antibodies (NAbs) will be critical components of a protective vaccine (21, 28, 53, 63).Equine infectious anemia virus (EIAV) is a macrophage-tropic lentivirus that causes persistent infection in horses worldwide and serves as an important large-animal translational model in which to dissect basic correlates of protective lentiviral immunity (9, 31, 33, 38, 57). EIAV is a naturally occurring lentivirus, and infection results in a predictable course of recurrent episodes of plasma viremia and clinical disease. As with HIV-1 and simian immunodeficiency virus (SIV), EIAV infection is not cleared. However, infected horses eventually control viral replication and clinical disease to remain persistently infected inapparent carriers. Adaptive immune responses, including NAbs, are required for EIAV control since young horses (foals) with severe combined immunodeficiency (SCID), unlike normal foals, fail to eliminate the initial viremia following challenge (46). Equine SCID is caused by a frameshift mutation in the gene encoding the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs) (55, 60) and has an autosomal recessive mode of inheritance (47). The equine SCID defect is more severe than its murine counterpart in that SCID foals are incapable of forming either coding or signal joints (55). Adoptive transfer of EIAV-specific T and B lymphocytes to a SCID foal results in functional cytotoxic T lymphocytes (CTL) and NAb activity and is protective against homologous EIAV challenge (33).During acute EIAV infection, each recurrent episode coincides with the emergence of an antigenically distinct EIAV variant as defined by type-specific NAb, which neutralizes virus isolated during early disease episodes but not virus isolated during subsequent disease episodes (2, 20, 22, 43, 52). Amino acid variation primarily occurs within hypervariable regions V1 to V8 of the envelope gp90 surface unit (SU) and particularly within the V3/principal neutralizing domain (PND) region (1, 19, 24, 25, 57). Our work with EIAV-infected SCID foals indicates that significant envelope diversification does not occur in the absence of NAbs but that rapid envelope diversification occurs when adaptive immune responses are reconstituted (35). Thus, adaptive immunity, including NAb, drives selection of EIAV envelope variants during acute infection. Amino acid changes occur primarily within the V3 to V7 hypervariable SU regions, and many changes affect potential N-linked glycosylation sites (PNLGS) (35). Importantly, however, CTL also target the SU, and variants that escape CTL recognizing an EIAV V3/PND epitope have been identified (37, 38). Thus, both NAbs and CTL are capable of contributing to the selection of EIAV SU variants, but the relative contributions of each to such selection are not known.Recently, SU variation was evaluated in an immunocompetent pony experimentally inoculated with the virulent wild-type Wyoming strain of EIAV (57). Seventy-one distinct V3 variants that partitioned into five major nonoverlapping groups were identified and designated PND1 to PND5. Neutralization assays using chimeric infectious molecular clones containing these PNDs suggested a transition from type-specific NAb responses toward more broadly reactive immune responses during the course of infection and indicated that genetic changes conferring resistance to broadly NAbs lead to recrudescence of clinical disease following a lengthy clinically quiescent period (57). Thus, the NAb response broadens significantly during long-term persistent EIAV infection, and broadly NAbs play a critical role in EIAV immune control.Studies of nonhuman primates have provided important information regarding the protective effects of NAbs. Passive immunization of macaques with purified immunoglobulin from chimpanzees infected with several different HIV-1 isolates results in complete protection from homologous chimeric simian/human immunodeficiency virus (SHIV) infection when the immunoglobulin is given 24 h prior to challenge (54). Passive transfer of a triple combination of broadly neutralizing human monoclonal antibodies directed against the envelope of a primary HIV-1 isolate results in complete protection against SHIV infection in some macaques while others become infected but exhibit decreased plasma viremia (29). The contribution of T cells to partial protection in these studies is not clear, and the presence or absence of viral escape variants in the unprotected macaques has not been evaluated. In neonatal macaques, various combinations of broadly neutralizing human monoclonal antibodies directed against conserved HIV envelope epitopes administered before and after SHIV challenge result in protection against persistent systemic infection in some animals, but clinical disease develops in others (12-14). Virus-specific T-cell proliferative responses are detected in some of the protected animals, indicating that cellular immune responses occur and likely contribute to protection by eliminating infected cells (13).Despite the fact that NAbs can block experimental SHIV infection, selection pressure exerted by NAbs plays a critical role in HIV-1 and SIV envelope evolution during infection, and evasion of NAb responses is an important mechanism of HIV-1 and SIV persistence (11, 16, 27, 48, 59). The maturation of a type-specific NAb response in SIV-infected rhesus macaques significantly correlates with diversification in the V1/V2 region of the SIV envelope (50). In HIV-1, NAbs are detectable within the first 2 months postinfection and result in an early and significant selection force on the virus population (49). Escape from NAbs involves many amino acid substitutions with little cross-neutralization between closely related strains, and NAb responses drive the diversification of the HIV-1 envelope during the early stages of infection (16). The early appearance of NAbs in patients with acute HIV-1 infection results in the replacement of neutralization-sensitive virus by successive populations of resistant virus, and virus escape primarily involves changes in N-linked glycosylation (59). Thus, overcoming neutralization escape constitutes a significant barrier to the ultimate efficacy of any NAb-eliciting HIV-1 vaccine.Because the SCID defect occurs naturally in the horse, it provides a powerful and unique opportunity to finely dissect the protective effects of immune interventions against a naturally occurring lentivirus independent of other de novo adaptive immune responses. This level of dissection is not possible in other lentivirus model systems. The goal of the current study was to determine if broadly NAbs could protect against lentivirus challenge in the complete absence of T lymphocytes and other adaptive immune responses. We hypothesized that convalescent immune plasma from a long-term persistently infected inapparent carrier horse containing antibodies capable of neutralizing homologous and several heterologous EIAV SU PND variants would provide complete protection when infused into SCID foals before experimental virus inoculation. This plasma was administered to four SCID foals 24 h prior to challenge, and four control SCID foals received normal horse plasma. Clinical outcome, plasma viral load, and serum neutralization activity were analyzed in all foals. Although complete protection was achieved in one treated foal, infection occurred in the others. In foals that became viremic, the SU sequence and neutralization phenotype of the breakthrough virus were determined. As part of these experiments, blood containing this virus was inoculated into a naive immunocompetent horse, and the adaptive immune responses associated with its control were further evaluated.     

Species loss of stoneflies (Plecoptera) in the Czech Republic during the 20th century

1. Rapid expansion and intensification of anthropogenic activities in the 20th century has caused profound changes in freshwater assemblages. Unfortunately, knowledge of the extent and causes of species loss (SL) is limited due to the lack of reliable historical data. An unusual data set allows us to compare changes in the most sensitive of aquatic insect orders, the Plecoptera, at some 170 locations in the Czech Republic between two time periods, 1955–1960 and 2006–2010. Historical data (1890–1911) on assemblages of six lowland rivers allow us to infer even earlier changes. 2. Regional stonefly diversity decreased in the first half of the 20th century. Streams at lower altitudes lost a substantial number of species, which were never recovered. In the second half of the century, large‐scale anthropogenic pressure caused SL in all habitats, leading to a dissimilarity of contemporary and previous assemblages. The greatest changes were found at sites affected by organic pollution and a mixture of organic pollution and channelisation or impoundment. Colonisation of new habitats was observed in only three of the 80 species evaluated. 3. Species of moderate habitat specialisation and tolerance to organic pollution were most likely to be lost. Those with narrow specialisations in protected habitats were present in both historical and contemporary collections. 4. Contemporary assemblages are the consequence of more than a 100 years of anthropogenic impacts. In particular, streams at lower altitude and draining intensively exploited landscapes host a mere fragment of the original species complement. Most stonefly species are less frequently present than before, although their assemblages remain almost intact in near‐natural mountain streams. Our analyses demonstrate dramatic restriction of species ranges and, in some cases, apparent changes in altitudinal preference throughout the area.     

Systems analysis of primary Sjögren's syndrome pathogenesis in salivary glands identifies shared pathways in human and a mouse model

Bone tissue has an exceptional quality to regenerate to native tissue in response to injury. However, the fracture repair process requires mechanical stability or a viable biological microenvironment or both to ensure successful healing to native tissue. An improved understanding of the molecular and cellular events that occur during bone repair and remodeling has led to the development of biologic agents that can augment the biological microenvironment and enhance bone repair. Orthobiologics, including stem cells, osteoinductive growth factors, osteoconductive matrices, and anabolic agents, are available clinically for accelerating fracture repair and treatment of compromised bone repair situations like delayed unions and nonunions. Preclinical and clinical studies using biologic agents like recombinant bone morphogenetic proteins have demonstrated an efficacy similar or better than that of autologous bone graft in acute fracture healing. A lack of standardized outcome measures for comparison of biologic agents in clinical fracture repair trials, frequent off-label use, and a limited understanding of the biological activity of these agents at the bone repair site have limited their efficacy in clinical applications.