Efeito de Sistemas Adesivos Contemporâneos na Produção de Citocinas por Monócitos Estimulados por Streptococcus Mutans

O objetivo deste trabalho foi avaliar o efeito de substâncias liberadas por diferentes sistemas adesivos resinosos na viabilidade celular e na produção de citocinas por monócitos humanos estimulados in vitro com Streptococcus mutans. Para isso, células mononucleares de sangue periférico de 10 indivíduos saudáveis foram estimuladas com S. mutans e, em seguida, incubadas com sobrenadantes obtidos dos sistemas adesivos SingleBond Universal (SBU) ou Clearfil SEBond (CSEB) por 8 horas. Foram realizadas reações de imunofluorescência e quantificação de monócitos CD14+ produtores das citocinas IL-1, IL-6, IL-8, IL-10, IL-12 e TNF-alfa, por meio de citometria de fluxo. Análises mostraram que a estimulação com S. mutans aumentou a frequência de monócitos produtores de IL-1a, IL-6, IL-8, IL-12 e TNF-alfa. A adição de SBU aumentou a frequência de monócitos expressando IL-8. Enquanto a adição de CSEB diminuiu a frequência de monócitos expressando IL-6 e TNF-alfa após estimulação com S. mutans. Produtos liberados de diferentes sistemas adesivos podem interferir de forma distinta no controle das reações imunoinflamatórias pulpares mediadas pelas citocinas, tanto na presença quanto na ausência de estimulação por bactéria cariogênica.Palavras-chave: Adesivos Dentários. Monócitos. Citocinas.

Specific activation of CD4- CD8- double-negative T cells by Trypanosoma cruzi-derived glycolipids induces a proinflammatory profile associated with cardiomyopathy in Chagas patients

Cardiomyopathy is the most severe outcome of Chagas disease, causing more than 12 000 deaths/year. Immune cells participate in cardiomyopathy development either by direct tissue destruction, or by driving inflammation. We have shown that CD4^- CD8^- [double-negative (DN)] T cells are major sources of inflammatory and anti-inflammatory cytokines, associated with the cardiac (CARD) and indeterminate (IND) forms of Chagas disease, respectively. Here, we sought to identify Trypanosoma cruzi-derived components that lead to activation of DN T cells in Chagas patients. Glycolipid (GCL), lipid (LIP) and protein-enriched (PRO) fractions derived from trypomastigote forms of T. cruzi were utilized to stimulate cells from IND and CARD patients to determine DN T cell activation by evaluating CD69 and cytokine expression. We observed that GCL, but not LIP or PRO fractions, induced higher activation of DN T cells, especially T cell receptor (TCR)-γδ DN T, from IND and CARD. GCL led to an increase in tumour necrosis factor (TNF) and interleukin (IL)-10 expression by TCR-γδ DN T cells from IND, while inducing IFN-γ expression by TCR-γδ DN T cells from CARD. This led to an increase in the ratio IFN-γ/IL-10 in TCR-γδ DN T cells from CARD, favouring an inflammatory profile. These results identify GCL as the major T. cruzi component responsible for activation of DN T cells in chronic Chagas disease, associated predominantly with an inflammatory profile in CARD, but not IND. These findings may have implications for designing new strategies of control or prevention of Chagas disease cardiomyopathy by modulating the response to GCL.

Immunoregulatory networks in human Chagas disease

Chagas disease, caused by the infection with Trypanosoma cruzi, is endemic in all Latin America. Due to the increase in population migration, Chagas disease has spread worldwide and is now considered a health issue not only in endemic countries. While most chronically infected individuals remain asymptomatic, approximately 30% of the patients develop a potentially deadly cardiomyopathy. The exact mechanisms that underlie the establishment and maintenance of the cardiac pathology are not clear. However, there is consistent evidence that immunoregulatory cytokines are critical for orchestrating the immune response and thus influence disease development or control. While the asymptomatic (indeterminate) form represents a state of balance between the host and the parasite, the establishment of the cardiac form represents the loss of this balance. Analysis of data obtained from several studies has led to the hypothesis that the indeterminate form is associated with an anti-inflammatory cytokine profile, represented by high expression of IL-10, while cardiac form is associated with a high production of IFN-gamma and TNF-alpha in relation to IL-10, leading to an inflammatory profile. Here, we discuss the immunoregulatory events that might influence disease outcome, as well as the mechanisms that influence the establishment of these complex immunoregulatory networks.

Immunoregulation in human American leishmaniasis: balancing pathology and protection

Leishmaniasis covers a broad spectrum of diseases with distinct, and sometimes overlapping, characteristics. The common thread in all forms of leishmaniasis is the infection by the parasite Leishmania belonging to the genus Leishmania. Upon infection of humans, there can be at least three outcomes, (i) control of Leishmania by the host immune response resulting in asymptomatic disease, (ii) patent infection and development of a relatively mild form of leishmaniasis and (iii) patent infection and development of severe clinical forms. The factors that determine the outcome of an initial inoculation with Leishmania are many, with the species of Leishmania representing one of the strongest predictive factors for the development of a given clinical form of disease. This is seen with L. braziliensis and L. amazonensis, infection leading mostly to tegumentary forms of disease, and L. infantum with the potential to induce visceral disease. However, it is also clear that the host immune response is a key factor in disease progression, not only responsible for control of Leishmania, but also playing an important role in disease progression and pathology. This duality between protective and pathogenic immune responses in individuals infected with Leishmania in the Americas is the focus of this review.

Immunoregulatory profile of monocytes from cutaneous leishmaniasis patients and association with lesion size

Leishmaniasis is an important tropical disease composed of several clinical forms that adversely affect millions of people globally. Critical cells involved in the host-Leishmania interaction are monocytes and macrophages, which act to protect against infections due to their ability to both control intracellular infections and regulate the subsequent adaptive immune response. Both soluble factors and cell surface receptors are keys in directing the immune response following interaction with pathogens such as Leishmania. Toll-like receptors (TLRs) have an essential role in immune responses against infections, but little is known about their role in human infection with Leishmania braziliensis. In this work, we evaluated peripheral blood CD14+ monocytes for the expression of immunoregulatory cytokines, co-stimulatory molecules and TLR9 from cutaneous leishmaniasis patients infected with L. braziliensis and noninfected individuals. Our results showed that patients present decreased expression of co-stimulatory molecules such as CD80 and CD86 following culture with media alone or after stimulus with soluble Leishmania antigen. Interestingly, TLR9 expression was higher after culture with soluble Leishmania antigen (SLA), suggesting a role of this molecule in immunoregulation of active disease. Lastly, higher frequencies of TLR9+ monocytes were correlated with greater lesion size. These findings demonstrate a peripheral monocytes profile compatible with important immunoregulatory potential.

Highly conserved CDR3 region in circulating CD4(+)Vβ5(+) T cells may be associated with cytotoxic activity in Chagas disease

Human infection with Trypanosoma cruzi leads to Chagas disease, which presents as several different clinical conditions ranging from an asymptomatic form to a severe dilated cardiomyopathy. Several studies have demonstrated that T cells play a critical role in the development of cardiac pathology, as well as in immunoregulation during chronic disease. However, the mechanisms that drive protective or pathogenic T cell response are not known. We have shown that CD4(+) T cells from chagasic patients preferentially express T cell receptor (TCR) β-chain variable region (Vβ) 5. The aim of this work was to determine whether T cells expressing this particular Vβ region displayed variable or restricted CDR3 sequences, as an indicator of the nature of the stimulus leading to the activation of these T cells in vivo. Additionally, we aimed to evaluate phenotypic characteristics of these cells that might be associated with pathology. CDR3 junctional region sequencing of Vβ5·1 expressing CD4(+) T cells revealed the occurrence of a highly homologous CDR3 region with conserved TCR Jβ region usage among patients with cardiac, but not indeterminate, Chagas disease. Moreover, correlation analysis indicated that the frequency of CD4(+)Vβ5·1(+) cells is associated with granzyme A expression, suggesting that these cells might display cytotoxic function. Together these results provide new insight into T cell recognition of antigens involved in Chagas disease and suggest that these cells may be implicated in the pathogenesis of chagasic cardiomyopathy.

CD4(+) T cells defined by their Vβ T cell receptor expression are associated with immunoregulatory profiles and lesion size in human leishmaniasis

Leishmaniasis is caused by infection with the protozoan parasite, Leishmania, that parasitizes human cells, and the cellular immune response is essential for controlling infection. In order to measure the host T cell response to Leishmania infection, we have measured the expansion, activation state and functional potential of specific T cells as identified by their T cell receptor Vβ region expression. In a group of cutaneous leishmaniasis (CL) patients, we evaluated these characteristics in nine different T cell subpopulations as identified by their Vβ region expression, before and after specific Leishmania antigen stimulation. Our results show: (1) an increase in CD4(+) T cells expressing Vβ 5·2 and Vβ 24 in CL compared to controls; (2) a Leishmania antigen-induced increase in CD4(+) T cells expressing Vβ 5·2, 11, 12 and 17; (3) a profile of previous activation of CD4(+) Vβ 5·2-, 11- and 24-positive T cells, with higher expression of CD45RO, HLA-DR, interferon-γ, tumour necrosis factor-α and interleukin-10 compared to other Vβ-expressing subpopulations; (4) a positive correlation between higher frequencies of CD4(+) Vβ5·2(+) T cells and larger lesions; and (5) biased homing of CD4(+) T cells expressing Vβ 5·2 to the lesion site. Given that CL disease involves a level of pathology (ulcerated lesions) and is often followed by long-lived protection and cure, the identification of specific subpopulations active in this form of disease could allow for the discovery of immunodominant Leishmania antigens important for triggering efficient host responses against the parasite, or identify cell populations most involved in pathology.

Captopril increases the intensity of monocyte infection by Trypanosoma cruzi and induces human T helper type 17 cells

The anti-hypertensive drug captopril is used commonly to reduce blood pressure of patients with severe forms of Chagas disease, a cardiomyopathy caused by chronic infection with the intracellular protozoan Trypanosoma cruzi. Captopril acts by inhibiting angiotensin-converting enzyme (ACE), the vasopressor metallopeptidase that generates angiotensin II and promotes the degradation of bradykinin (BK). Recent studies in mice models of Chagas disease indicated that captopril can potentiate the T helper type 1 (Th1)-directing natural adjuvant property of BK. Equipped with kinin-releasing cysteine proteases, T. cruzi trypomastigotes were shown previously to invade non-professional phagocytic cells, such as human endothelial cells and murine cardiomyocytes, through the signalling of G protein-coupled bradykinin receptors (B(2) KR). Monocytes are also parasitized by T. cruzi and these cells are known to be important for the host immune response during infection. Here we showed that captopril increases the intensity of T. cruzi infection of human monocytes in vitro. The increased parasitism was accompanied by up-regulated expression of ACE in human monocytes. While T. cruzi infection increased the expression of interleukin (IL)-10 by monocytes significantly, compared to uninfected cells, T. cruzi infection in association with captopril down-modulated IL-10 expression by the monocytes. Surprisingly, studies with peripheral blood mononuclear cells revealed that addition of the ACE inhibitor in association with T. cruzi increased expression of IL-17 by CD4(+) T cells in a B(2) KR-dependent manner. Collectively, our results suggest that captopril might interfere with host-parasite equilibrium by enhancing infection of monocytes, decreasing the expression of the modulatory cytokine IL-10, while guiding development of the proinflammatory Th17 subset.

Recruitment of CD8(+) T cells expressing granzyme A is associated with lesion progression in human cutaneous leishmaniasis

Human infection with Leishmania braziliensis leads to the establishment of cutaneous leishmaniasis (CL), characterized by the appearance of skin lesions that progress from nonulcerated to ulcerated forms. Our goal was to characterize the immunological kinetics associated with this progression, comparing the cellular composition, cytokines and granzyme expression between lesions of patients with early (E-CL) and late stages (L-CL) of CL. Histopathological analysis showed that lesions from L-CL had more exuberant inflammatory infiltrate as compared to E-CL. Although E-CL and L-CL lesions were predominantly mononuclear, lesions from E-CL patients presented higher neutrophil and eosinophil counts than L-CL. While percentages of CD4(+) and of CD68(+) cells were slightly higher in L-CL, a fivefold increase of CD8(+) cells was observed in L-CL, as compared to E-CL. Moreover, CD8(+) T-cells from L-CL expressed significantly higher levels of granzyme A than E-CL. Interestingly, granzyme A expression was positively correlated with intensity of the inflammatory infiltrate in L-CL but not E-CL. Lastly, percentages of IFN-gamma(+) and IL-10(+) cells were higher in L-CL as compared to E-CL, with CD4(+) T-cells and CD68(+) monocytes as the main sources of these cytokines, respectively. These results suggest that recruitment of CD8(+) granzyme A(+) T cells is involved in lesion progression in human CL.

TNFA and IL10 gene polymorphisms are not associated with periodontitis in Brazilians

IL-10 and TNF-α are cytokines that have complex and opposing roles in the inflammatory responses. G/A polymorphisms at position –1082 of IL10 and –308 of TNFA genes have been reported to influence the expression of IL-10 and TNF-α, respectively. The aim of this study was to investigate the association between the IL10 (-1082) and TNFA (- 308) gene polymorphisms with different clinical forms or severity of periodontitis in a sample of Brazilian individuals. DNA was obtained from oral swabs of 165 Brazilian individuals, which were divided into three groups: individuals with chronic periodontitis, aggressive periodontitis and individuals without clinical evidence of periodontitis. Evaluation of IL10 and TNFA polymorphisms was performed by RFLP analysis. Statistical analysis of data was performed using the χ² likelihood ratio and Fisher`s exact test. No significant differences in the genotype and allele distribution of either IL10 or TNFA were observed among individuals with different clinical forms or with different degrees of severity of periodontitis. Moreover, combined analysis of IL10 and TNFA polymorphisms did not show any association with periodontal status. As conclusion, the IL10 and TNFA gene promoter polymorphisms investigated are not associated with different clinical forms of periodontitis or with severity of the disease in the Brazilian population polymorphisms.

The leukocytes expressing DARPP-32 are reduced in patients with schizophrenia and bipolar disorder

Bipolar disorder (BPD) and schizophrenia (SCZ) are severe disorders representing an enormous social, familiar and individual burden, being SCZ the most disabling psychiatric disorder characterized by psychosis and cognitive impairment. It is well known that SCZ and BPD are associated with abnormalities in dopamine signaling pathway. Recent data in the literature have demonstrated altered expression levels of some proteins involved in the modulation of this pathway in both brain and peripheral tissues. It was shown that protein and mRNA levels of dopamine and cAMP regulated phosphoprotein (DARPP-32) were downregulated in dorsolateral prefrontal cortex (DLPFC) of patients with SCZ or BPD when compared to controls. Due to the difficulty to access brain tissue and the absence of objective laboratory tests for bio-markers, we measured DARPP-32 expression in blood cell sub-populations (CD4+ T lymphocytes, CD56+ NK cells, CD19+ B lymphocytes and CD14+ monocytes) taking advantage of the close relation of nervous and immune systems. Using flow cytometry as the analytical method, our results have shown that the DARPP-32 expression was diminished in CD4+ T lymphocytes, CD19+ B lymphocytes and CD14+ monocytes of BPD patients and was also decreased in CD4+ T lymphocytes and CD56+ NK cells of SCZ patients. These results showed that DARPP-32 expression in immune cells agrees with reports of reduced DARPP-32 protein in the DLPFC of BPD or SCZ patients. Our data suggest that DARPP-32 expression in PBMC could be used as a source of bio-markers to help in the treatment response of neuropsychiatry disorders as a window to the changes in the brain of those patients.

Interleukin-6 expression and gene polymorphism are associated with severity of periodontal disease in a sample of Brazilian individuals

Interleukin (IL)-6 is an inflammatory mediator involved in bone resorption. G/C polymorphism at position -174 of the IL-6 gene has been reported to influence IL-6 expression, with the G allele associated with higher expression levels. The aims of this study were to investigate the expression of IL-6 as well as the incidence of IL-6 (-174) gene polymorphism and their correlation to the severity of periodontitis in Brazilians. Peripheral blood mononuclear cells were collected from 12 non-smoker individuals with periodontitis for evaluation of IL-6 expression using flow cytometry. We observed a positive correlation between the mean clinical attachment loss and intensity of expression of IL-6, in which the greater the attachment loss, the higher the expression of IL-6 (P=0 x 007, R2=0 x 52). Also, patients with severe periodontitis displayed a higher intensity of IL-6 expression compared to moderate periodontitis (P=0 x 04). To determine the occurrence of IL-6 gene polymorphism, DNA was obtained from oral swabs of 209 Brazilian individuals with and without periodontitis. Polymerase chain reaction, restriction endonuclease digestion and electrophoresis were performed, allowing for detection of the IL-6 (-174) polymorphism. We observed that non-smokers with moderate periodontitis (P=0 x 05) and control (P=0 x 04) groups displayed a higher incidence of the G genotype when compared to severe periodontitis. This suggests that the G genotype may represent a protective role in severity of periodontitis. Thus, the increased expression of IL-6 and IL-6 (-174) polymorphism are associated with periodontal disease severity in Brazilian individuals.

Differential immune regulation of activated T cells between cutaneous and mucosal leishmaniasis as a model for pathogenesis

Cutaneous (CL) and mucosal leishmaniasis (ML) are characterized by a predominant type 1 immune response (IFN-gamma and TNF-alpha production) and strong inflammatory response in the lesions with few parasites. This exacerbated type 1 response is more evident in ML as compared to CL. Our main hypothesis is that a differential immune regulation of T cell activation leads to over reactive T cells in ML. In the present study, we investigated immunological factors that could explain the mechanisms behind it by comparing some immune regulatory mechanisms between ML and CL patients: frequency of cells expressing co-stimulatory molecules, apoptotic markers, T cell activation markers; and ability of neutralizing antibodies to IL-2, IL-12 and IL-15 do down-regulate IFN-gamma production in leishmania antigen-stimulated peripheral blood mononuclear cells (PBMC). Interestingly, in CL anti-IL-2 and anti-IL-15 significantly suppressed antigen-specific IFN-gamma production, while in ML only anti-IL-2 suppressed IFN-gamma production. Finally, higher frequency of CD4+ T cells expressing CD28-, CD69+ and CD62L(low) were observed in ML as compared to CL. These data indicate that an exacerbated type 1 response in ML is differentially regulated and not appropriately down modulated, with increased frequencies of activated effectors T cells, maintaining the persistent inflammatory response and tissue damage observed in ML.

The IL1A (?889) gene polymorphism is associated with chronic periodontal disease in a sample of Brazilian individuals

BACKGROUND AND OBJECTIVE

It has been proposed that genotypes reflective of polymorphisms in cytokine genes can predispose individuals to disease by enhancing inflammatory processes. The C/T polymorphism at position -889 of the IL1A gene influences interleukin-1alpha expression, with the T allele inducing higher expression. The aim of this study was to evaluate the association of the IL1A (-889) gene polymorphism in Brazilian individuals with different clinical forms of periodontitis and severity of disease.

MATERIAL AND METHODS

DNA was obtained from oral swabs of 163 Brazilian individuals and was amplified using the polymerase chain reaction (PCR). Products were submitted to digestion and were analyzed by electrophoresis to distinguish the C and T alleles.

RESULTS

A significant difference in the genotype distribution was observed when comparing the chronic periodontitis group with the control group, evaluating only nonsmokers (chi-squared analysis = 9.91; p = 0.007), as well as when smokers were included (chi-squared analysis = 6.36; p = 0.04). Moreover, we observed a higher incidence of the T allele in the chronic periodontitis group (37.8%) when compared with the control group (18.4%) in nonsmokers (p = 0.006, odds ratio = 2.69, confidence interval = 1.27-5.68) and also when smokers were included (p = 0.03, odds ratio = 1.87, confidence interval = 0.98-3.56). No statistical difference was observed when the aggressive periodontitis group was compared with the control group. With regard to severity of disease, no statistical difference was observed.

CONCLUSION

These data show an association of the IL1A (-889) polymorphism with chronic periodontitis in Brazilian individuals.

Mucosal Leishmaniasis Patients Display an Activated Inflammatory T-cell Phenotype Associated with a Nonbalanced Monocyte Population

Leishmania braziliensis is a parasite that can induce at least two clinical forms of leishmaniasis in humans: cutaneous leishmaniasis (CL) and mucosal leishmaniasis (ML). In humans, the specific mechanisms that determine which form will develop following infection are not well established. In this study, peripheral blood mononuclear cells from 17 CL and 9 ml patients were compared both ex vivo and after culture with soluble leishmania antigen (SLA). Patients with ML presented a higher frequency of activated T cells as measured by ex vivo frequencies of (CD4+)(CD69+), (CD4+)(CD28-), (CD4+)(CD62L-) and (CD8+)(CD69+) than those with CL. Moreover, after stimulation with SLA, patients with ML presented a higher frequency of TNF-alpha-producing CD4+ and CD14+ cells than CL individuals. While CL patients displayed a positive correlation between the frequency of IL-10 and TNF-alpha-producing monocytes, the ML patients did not. This lack of a positive correlation between IL-10-producing and TNF-alpha-producing monocytes in ML patients could lead to a less controlled inflammatory response in vivo. These results corroborate with a model of an exacerbated, unregulated, immune response in ML patients and point to key immunomodulatory leucocyte populations and cytokine networks that may be involved in the development of immunopathology in ML patients.

Effect of LACK and KMP11 on IFN-gamma Production by Peripheral Blood Mononuclear Cells from Cutaneous and Mucosal Leishmaniasis Patients

The immune modulatory properties of recombinant antigens Kinetoplasmid membrane protein-11 (KMP11) and Leishmania homologue of receptors for activated C kinase (LACK) in cutaneous leishmaniasis (CL) and mucosal leishmaniasis (ML) patients were evaluated. The mean levels of interferon-gamma (IFN-gamma) in soluble leishmania antigen (SLA) stimulated peripheral blood mononuclear cells (PBMC) of ML and CL patients were 5625 +/- 2333 pg/ml and 4422 +/- 3665 pg/ml, respectively. IFN-gamma was not detected in cultures stimulated with KMP11 or LACK. Interleukin-10 (IL-10) concentration in SLA, KMP11 and LACK-stimulated PBMC of ML patients was 13 +/- 12 pg/ml, 285 +/- 388 pg/ml and 802 +/- 483 pg/ml, respectively. Addition of KMP11 or LACK to SLA-stimulated PBMC of CL and ML patients enhanced IL-10 production (P < 0.05). Addition of KMP11 decreased IFN-gamma levels by 52% in CL patients and by 19% in ML patients. Addition of LACK to SLA-stimulated cultures decreased IFN-gamma levels by 58% in CL patients and by 30% in ML patients. Neutralization of IL-10 abrogated the downregulatory effect of LACK and KMP11. The modulatory properties of LACK and KMP11 are due to induction of IL-10 production and may be helpful for attenuating chronic inflammatory diseases. However, in some clinical conditions, as demonstrated for ML, these molecules are not able to suppress the IFN-gamma response, even inducing IL-10 production.

Phenotypic and functional characteristics of CD28+ and CD28- cells from chagasic patients: distinct repertoire and cytokine expression

Chronic human Chagas' disease ranges from an asymptomatic to a severe cardiac clinical form. The involvement of the host's immune response in the development and maintenance of chagasic pathology has been demonstrated by several groups. We have shown that activated T-cells lacking CD28 expression are increased in the peripheral blood of chagasic patients (CP), suggesting a relationship between these cells and disease. In order to better characterize this cell population, determining their possible role in immunoregulation of human Chagas' disease, we evaluated the expression of TCR-Vbeta regions 2, 3.1, 5, 8 and 17, as well as the expression of IFN-gamma, TNF-alpha, IL-4 and IL-10 by CD28+ and CD28- cells from polarized indeterminate and cardiac CP. Flow cytometric analysis demonstrated equivalent TCR-Vbeta usage between CD4+CD28+ and CD4+CD28- cells from all groups (chagasic and healthy controls). However, there was a predominance of Vbeta5 expression in the CD28+ and CD28- populations in the CP groups (indeterminate and cardiac). Interestingly, CD8+CD28- cells from CP, but not from nonchagasic individuals, displayed a reduced frequency of most analysed Vbetas when compared with the CD8+CD28+ subpopulation. Comparison of V-beta expression in CD28+ or CD28- cell populations among individuals from different groups also showed several interesting differences. Functionally, cardiac CP displayed a higher frequency of IFN-gamma, TNF-alpha and IL-4 producing lymphocytes than indeterminate CP. Correlation analysis between the frequency of cytokine expressing cells, and the frequency of CD4+ T-cells with differential expression of CD28 demonstrated that CD4+CD28- T-cells were positively correlated with TNF-alpha in cardiac and with IL-10 in indeterminate CP, suggesting that these cells might have an important regulatory role in human Chagas' disease.

Antigen specific correlations of cellular immune responses in human leishmaniasis suggests mechanisms for immunoregulation

Regulation of the immune response directed against Leishmania is critical for the establishment of effective control of the disease. It is likely that some types of immune responses directed against Leishmania can lead to more severe clinical forms of leishmaniasis causing a poor control of the pathogen and/or pathology, while others lead to resolution of the infection with little pathology as in cutaneous leishmaniasis. To gain a better understanding of the possible role that subpopulations of T cells, and their associated cytokines have on disease progression and/or protective immune responses to L. braziliensis infection, a detailed study of the frequency of activated and memory T cells, as well as antigen specific, cytokine producing T cells was carried out. Following the determination of cytokine producing mononuclear cell populations in response to total Leishmania antigen (SLA), and to the recombinant antigen LACK, correlation analysis were performed between specific cytokine producing populations to identify models for cellular mechanisms of immunoregulation in human cutaneous leishmaniasis. These studies have shown: (1) a positive correlation between ex vivo CD45RO frequencies and antigen specific cytokine (IFN-gamma or IL-10) producing cells; (2) a negative correlation between ex vivo CD69 expression and the frequency of IFN-gamma producing cells; (3) a positive correlation amongst SLA specific, IFN-gamma or TNF-alpha and IL-10 producing lymphocytes with one another; and (4) a higher frequency of IL-10 producing, parasite specific (anti-SLA or anti-LACK), lymphocytes are correlated with a lower frequency of TNF-alpha producing monocytes, demonstrating an antigen specific delivery of IL-10 inducing negative regulation of monocyte activity.

Flow cytometric determination of cellular sources and frequencies of key cytokine-producing lymphocytes directed against recombinant LACK and soluble Leishmania antigen in human cutaneous leishmaniasis

Leishmaniasis, caused by infection with the protozoan parasite Leishmania, affects millions of individuals worldwide, causing serious morbidity and mortality. This study directly determined the frequency of cells producing key immunoregulatory cytokines in response to the recombinant antigen Leishmania homolog of receptors for activated kinase C (LACK) and soluble leishmania antigen (SLA), and it determined relative contributions of these antigens to the overall cytokine profile in individuals infected for the first time with Leishmania braziliensis. All individuals presented with the cutaneous clinical form of leishmaniasis and were analyzed for proliferative responses to LACK antigen and SLA, frequency of lymphocyte subpopulations (analyzed ex vivo), and antigen-induced (LACK and SLA) cytokine production at the single-cell level (determined by flow cytometry). The following were determined. (i) The Th1-type response previously seen in patients with cutaneous leishmaniasis is due to gamma interferon (IFN-gamma) production by several different sources, listed in order of contribution: CD4(+) T lymphocytes, CD4(-), CD8(-) lymphocytes, and CD8(+) T lymphocytes. (ii) SLA induced a higher frequency of lymphocytes producing IFN-gamma and tumor necrosis factor alpha (TNF-alpha) than did LACK. (iii) LACK induced an activation of monocyte populations as reflected by an increased percentage of CD14-positive cells. (iv) Neither SLA nor LACK induced detectable frequencies of cells producing interleukin-4 (IL-4) or IL-5. These data demonstrated a multifaceted immune response to SLA in human leishmaniasis involving Th1 CD4(+) T lymphocytes (IFN-gamma(+) and IL-10(-)/IL-4(-)), Tc1 CD8(+) T cells (IFN-gamma(+), and IL-10(-)/IL-4(-)), and a high frequency of TNF-alpha-producing lymphocytes. Moreover, it was determined that the recombinant antigen LACK acts as a weak inducer of Th1-type lymphocyte responses compared to SLA.

Immunochemotherapy in American cutaneous leishmaniasis: immunological aspects before and after treatment

In this study, we evaluated the immune response of patients suffering from cutaneous leishmaniasis treated with two distinct protocols. One group was treated with conventional chemotherapy using pentavalent antimonium salts and the other with immunochemotherapy where a vaccine against cutaneous leishmaniasis was combined with the antimonium salt. Our results show that, although no differences were observed in the necessary time for complete healing of the lesions between the two treatments, peripheral blood mononuclear cells from patients treated by chemotherapy showed smaller lymphoproliferative responses at the end of the treatment than those from patients in the immunochemotherapy group. Furthermore, IFN-gamma production was also different between the two groups. While cells from patients in the chemotherapy group produced more IFN-gamma at the end of treatment, a significant decrease in this cytokine production was associated with healing in the immunochemotherapy group. In addition, IL-10 production was also less intense in this latter group. Finally, an increase in CD8+ -IFN-gamma producing cells was detected in the chemotherapy group. Together these results point to an alternative treatment protocol where healing can be induced with a decreased production of a potentially toxic cytokine.

T-cell repertoire analysis in acute and chronic human Chagas' disease: differential frequencies of Vbeta5 expressing T cells

Here, we analysed the use of Vbeta-TCR regions by CD4+ and CD8+ T cells from acute and chronic chagasic patients using flow cytometry. We determined the Vbeta expression in cells freshly isolated from patients, as well as after in vitro stimulation with antigens derived from epimastigote (EPI) or trypomastigote (TRYPO) forms of Trypanosoma cruzi. Analysis of Vbeta-TCR expression of T cells freshly isolated from patients showed a decrease in Vbeta5 expression in the CD4+ T-cell population from acutely infected individuals, whereas CD4+Vbeta5+ T cells were found to be increased in chronic patients with the cardiac, but not indeterminate, clinical form. After culturing peripheral blood mononuclear cells (PBMC) from chronic patients with EPI or TRYPO, we found that both antigenic preparations led to a preferential expansion of CD4+Vbeta5+ T cells. EPI stimulation also led to the expansion of CD8+Vbeta5+ T cells, whereas TRYPO led to the expansion of this cell population only if PBMC were from cardiac and not indeterminate patients. We observed that TRYPO stimulation led to an increase in the frequency of CD4+Vbeta17+ T cells in cultures of PBMC from indeterminate patients, whereas an increase in the frequency of CD8+Vbeta17+ T cells was found upon TRYPO stimulation of PBMC from cardiac patients. Despite this increase in the frequency of Vbeta17+ T-cell populations upon TRYPO stimulation, the same antigenic preparation led to a much higher expansion of Vbeta5+ T cells. These results show a differential expression of Vbeta5-TCR in cells freshly isolated from chagasic patients in different stages of the disease and that parasite-specific antigens stimulate a portion of the T-cell repertoire with preferential usage of Vbeta5-TCR.

Down modulation of MHC surface molecules on B cells by suppressive immune complexes obtained from chronic intestinal schistosomiasis patients

Granulomatous inflammation around parasite eggs is the prominent lesion in human schistosomiasis. Studies have suggested the involvement of a series of suppressive mechanisms in the control of this reaction, such as macrophages, cytokines, idiotypic interactions and immune complexes (IC). The studies examine the role of IC obtained from chronic intestinal schistosomiasis patients (ISP) in the reactivity of peripheral blood mononuclear cells (PBMC). The results have shown that these immune complexes are able to suppress cell reactivity by inducing an increase in the production of soluble mediators such as prostaglandins and IL-10. To gain a better understanding of how this suppression occurs the present study examines the phenotypic pattern of PBMC after immune complex treatment in cell proliferation assays. These data show that cultures including immune complex present a higher percentage of B lymphocytes in which a lower expression of a MHC-class II gene product, HLA-DR was detected. This altered expression of the HLA-DR molecule on B lymphocytes after IC treatment suggests a novel mechanism for the suppression observed, that is, IC might decrease the antigen-presenting function of B lymphocytes.

Cytokine mRNA profile of peripheral blood mononuclear cells isolated from individuals with Trypanosoma cruzi chronic infection

Characterization of immunologic activities during chronic infection with Trypanosoma cruzi is critical for understanding the dynamics of human Chagas' disease. Since cytokine production is mainly regulated by transcription and mRNA stability, quantitative RT-PCR analysis gives an accurate picture of the influences of disease on cytokine profile. Using RT-PCR, the authors analysed the levels of message expression for several cytokines in peripheral blood mononuclear cells (PBMC) freshly isolated from chagasic patients (CP) and non-infected individuals (NI), and in in vitro-stimulated PBMC from CP. Ex vivo analysis showed that mean levels of expression of IL-5, IL-10, IL-13 and IFN gamma were dramatically increased in PBMC from CP, compared to NI. The levels of IL-2 and IL-4 were not significantly different between groups. Analysis of cytokine mRNA production after in vitro culture with parasite-derived antigens (EPI or TRP) or anti-epimastigote antibodies (Id) showed that these two classes of stimuli induced distinct cytokine responses. While EPI or TRP induced higher production of IFN gamma specific message and low IL-10, anti-Id cells produced higher levels of IL-10 and low IFN gamma. The simultaneous presence of antigenic and antibody stimulation in the host during the chronic phase of Chagas' disease could explain the existence of both inflammatory and anti-inflammatory cellular reactivity detected in most patients.

Early message expression of interleukin-4 and interferon-gamma, but not of interleukin-2 and interleukin-10, reflects later polarization of primary CD4+ T cell cultures

The CD4+ T cell subpopulation identified by the Mel-14high phenotype represents naive T cells that develop into T helper 1 (Th1) cells upon stimulation with anti-CD3 and interleukin (IL)-2; however, the addition of IL-4 induces the development of high IL-4, IL-5 and IL-10-secreting cells (IL-4 SC). Here, we investigate the timing of cytokine gene expression in purified naive, Mel-14high CD4+ T cells after stimulation under conditions that induce one of three dramatically different populations following secondary stimulation: anti-CD3 + IL-2 (Th1), anti-CD3 + IL-2 and IL-4 (IL-4 SC) and anti-CD3 + anti-interferon (IFN)-gamma/anti-IL-4 (null population). The skewing toward IL-4 SC development induced by IL-4 in the primary stimulation was clearly visible by 40 h. The message for IL-4 was absent at 20 h after stimulation, but was induced 30-100-fold by 40 h and was accompanied by a decrease in IFN-gamma message. The message for IL-5 was undetectable. The development of Mel-14high T cells into a Th1 population follows kinetics similar to those of the development of IL-4 SC in that IFN-gamma gene transcription was undetectable at 20 h and induced 100-fold by 40 h post-stimulation. This induction was inhibited by the inclusion of anti-IFN-gamma/anti-IL-4 during the primary stimulation. Finally, IL-10 message is present in both cultures that developed into IL-4 SC and those that developed into Th1 populations, in contrast to the differentiated cultures where there is a segregation between IL-10 and IFN-gamma expression. Undetectable levels of message for both IL-2 and IFN-gamma were seen in the null cultures, which expressed both IL-2 and IL-10 message. T cells identified by the Mel-14low phenotype develop into a population that secretes high levels of all cytokines tested, and this phenotype was revealed within 20 h after stimulation as determined by message analysis. These results demonstrate an early correlation of gene transcription for IL-4 and IFN-gamma, with the development of IL-4 SC and Th1 cells, and a lack of a correlation at these early time points for expression of IL-2, IL-5 and IL-10.

Lack of interferon gamma receptor beta chain and the prevention of interferon gamma signaling in TH1 cells

The ability of interferon gamma (IFN-gamma) to inhibit the proliferation of type 2 T helper cells (TH2), but not that of type 1 (TH1) cells, suggests that helper cell subsets might differ in their activation of the IFN-gamma signaling pathway. The IFN-gamma-inducible signal transducing factor (STF-IFN gamma) was activated in murine TH2 but not in TH1 cell clones, because in the latter the second chain of the IFN-gamma receptor (accessory factor 1 or IFN-gamma R beta) was absent. Thus, TH1 cells use receptor modification to prevent the activation of STF-IFN gamma and achieve an IFN-gamma-resistant state.

A minority subpopulation of CD4+ T cells directs the development of naive CD4+ T cells into IL-4-secreting cells

The culture of CD4+ T cells with immobilized anti-CD3 and IL-2 generated a population of cells that produced both IL-4 and IFN-gamma on restimulation. In contrast, CD4+ T cells stimulated with immobilized anti-V beta 6 under otherwise identical culture conditions generated cells that produced IFN-gamma but not IL-4 on restimulation. This difference was likely a result of quantitative differences in the concentration of responding T cells in the two cultures rather than to qualitative differences between the two Abs. Anti-CD3 induced development of IL-4 secreting cells required IL-4 during the primary stimulation. This endogenous IL-4 in primary cultures was produced by cells with a Mel-14low, memory/activated phenotype but not by cells expressing the Mel-14high, naive phenotype. However, co-cultures of Mel-14high and Mel-14low populations marked with different Ly-5 allotypes demonstrated that nearly all of the IL-4-secreting cells that developed from primary cultures were generated from the Mel-14high population. Moreover, Mel-14high T cells could generate IL-4-secreting cells only in the presence of Mel-14low T cells or rIL-4. In addition, co-culture of CD4+, Mel-14low T cells from IL-4-deficient mice with CD4+, Mel-14high T cells from wild-type mice did not lead to the development of IL-4-secreting cells. Thus, IL-4, made by a minority population of previously differentiated CD4+ T cells, can induce the development of IL-4-secreting cells from the naive T cells but naive CD4+ T cells themselves do not develop into IL-4-secreting cells.

A minority subpopulation of CD4+ T cells directs the development of naive CD4+ T cells into IL-4-secreting cells

The culture of CD4+ T cells with immobilized anti-CD3 and IL-2 generated a population of cells that produced both IL-4 and IFN-gamma on restimulation. In contrast, CD4+ T cells stimulated with immobilized anti-V beta 6 under otherwise identical culture conditions generated cells that produced IFN-gamma but not IL-4 on restimulation. This difference was likely a result of quantitative differences in the concentration of responding T cells in the two cultures rather than to qualitative differences between the two Abs. Anti-CD3 induced development of IL-4 secreting cells required IL-4 during the primary stimulation. This endogenous IL-4 in primary cultures was produced by cells with a Mel-14low, memory/activated phenotype but not by cells expressing the Mel-14high, naive phenotype. However, co-cultures of Mel-14high and Mel-14low populations marked with different Ly-5 allotypes demonstrated that nearly all of the IL-4-secreting cells that developed from primary cultures were generated from the Mel-14high population. Moreover, Mel-14high T cells could generate IL-4-secreting cells only in the presence of Mel-14low T cells or rIL-4. In addition, co-culture of CD4+, Mel-14low T cells from IL-4-deficient mice with CD4+, Mel-14high T cells from wild-type mice did not lead to the development of IL-4-secreting cells. Thus, IL-4, made by a minority population of previously differentiated CD4+ T cells, can induce the development of IL-4-secreting cells from the naive T cells but naive CD4+ T cells themselves do not develop into IL-4-secreting cells.

Endogenous retroviral superantigen presentation by B cells induces the development of type 1 CD4+ T helper lymphocytes

The endogenous retroviral superantigen, minor lymphocyte stimulating antigen (Mls 1a, encoded by Mtv-7), when presented by highly purified B cells induced the development of a highly polarized population of T helper (Th)1 cells from naive peripheral CD4+ T cells in vitro. Immobilized anti-V beta 6 antibodies similarly generated highly polarized, largely V beta 6+, Th 1 populations in vitro. In the presence of exogenous interleukin-4, both stimuli were capable of generating Th 2, rather than Th 1 populations. Mls 1a presentation by B cells in vivo led to the development of an equally polarized Th 1 population. Using monoclonal antibodies against interferon-gamma and transforming growth factor-beta, it was demonstrated that maximal Th 1 development with either stimulus in vitro was dependent on the endogenous production of these two cytokines. Thus, our results demonstrate that the retroviral encoded superantigen, Mls 1a, drives the development of Th 1 cells both in vitro and in vivo, and they suggest that B cell presentation does not, in itself, lead to the generation of Th 2 cells.

Role of transforming growth factor-beta in the preferential induction of T helper cells of type 1 by staphylococcal enterotoxin B

Stimulation of murine CD4+ T cells with staphylococcal enterotoxin B (SEB) results in the preferential development of T helper (Th) 1 cells [i.e. high interferon (IFN)-gamma and low interleukin (IL)-4, IL-5 and IL-10]; whereas in response to plate-bound anti-CD3 or anti-T cell receptor-alpha beta, Th1 as well as Th2 cells develop. In the present study, we examined the mechanism which is responsible for the selective Th1 development in the SEB system. The addition of IL-4 resulted in a strong development of Th2 cells showing that SEB stimulation can result in Th2 differentiation. Co-stimulation with anti-CD28 was insufficient in this regard. Lack of Th2 development in the SEB system was in part due to the inhibitory effect of endogenously produced transforming growth factor-beta (TGF-beta), because anti-TGF-beta allowed the development of Th2 cells. Similarly, TGF-beta inhibited Th2 development and stimulated Th1 development in the anti-CD3 system. This shift was only partially prevented by also including IL-4 in the cultures. The effects of TGF-beta could only partially be explained by stimulation of IFN-gamma or inhibition of IL-4 as intermediatory cytokines: (1) TGF-beta stimulated Th1 development even in the presence of anti-IL-4 and anti-IFN-gamma, and (2) a strong inhibitory effect of anti-TGF-beta on Th1 development was still observed when anti-IL-4 and IFN-gamma were simultaneously added to the cultures. It is concluded that SEB favors Th1 development by stimulation of TGF-beta production. Inhibition of Th2 development by TGF-beta is due, in part, to inhibition of IL-4 and stimulation of IFN-gamma, and, in part, to a direct effect of TGF-beta on the responding T cells.

Aberrant induction of T cell tolerance in B cell suppressed mice

Self-tolerance is the process by which the T cell repertoire develops without expressing self-reactive specificities. The mechanisms which functionally eliminate self-reactive T cells are clonal deletion and clonal inactivation, and both of these phenomena have been studied in T cell populations reactive to endogenous superantigens that are encoded by endogenous mouse mammary tumor proviruses (Mtv). The studies described here demonstrate that the kinetics of Etc-1 (encoded by the Mtv-9 open reading frame gene)-mediated deletion are much slower than that seen for Mls 1a (encoded by the Mtv-7 open reading frame), and that Etc-1-reactive T cells are present in the periphery up to 2 wk after birth. The deletion of peripheral Etc-1-reactive T cells late in ontogeny indicates an efficient mechanism of peripheral clonal deletion in these animals. The clonal deletion of Etc-1-reactive cells is abrogated in B cell-suppressed animals; however, clonal elimination of peripheral V beta 5+ or V beta 11+ (Etc-1 reactive) T cells can be induced when these mice are allowed to recover their B cell population after cessation of anti-mu treatment. Finally, we establish that peripheral Etc-1-reactive V beta 11+/CD4+ T cells remaining in B cell-suppressed and recovering animals are markedly less responsive to stimulation through the TCR than are control T cells. These data support the idea that peripheral self-reactive T cells can be rendered tolerant by two mechanisms which may be temporally related. This model suggests that clonal hyporesponsiveness may be followed by clonal deletion.

Aberrant induction of T cell tolerance in B cell suppressed mice

Self-tolerance is the process by which the T cell repertoire develops without expressing self-reactive specificities. The mechanisms which functionally eliminate self-reactive T cells are clonal deletion and clonal inactivation, and both of these phenomena have been studied in T cell populations reactive to endogenous superantigens that are encoded by endogenous mouse mammary tumor proviruses (Mtv). The studies described here demonstrate that the kinetics of Etc-1 (encoded by the Mtv-9 open reading frame gene)-mediated deletion are much slower than that seen for Mls 1a (encoded by the Mtv-7 open reading frame), and that Etc-1-reactive T cells are present in the periphery up to 2 wk after birth. The deletion of peripheral Etc-1-reactive T cells late in ontogeny indicates an efficient mechanism of peripheral clonal deletion in these animals. The clonal deletion of Etc-1-reactive cells is abrogated in B cell-suppressed animals; however, clonal elimination of peripheral V beta 5+ or V beta 11+ (Etc-1 reactive) T cells can be induced when these mice are allowed to recover their B cell population after cessation of anti-mu treatment. Finally, we establish that peripheral Etc-1-reactive V beta 11+/CD4+ T cells remaining in B cell-suppressed and recovering animals are markedly less responsive to stimulation through the TCR than are control T cells. These data support the idea that peripheral self-reactive T cells can be rendered tolerant by two mechanisms which may be temporally related. This model suggests that clonal hyporesponsiveness may be followed by clonal deletion.

Divergent viral superantigens delete V beta 5+ T lymphocytes

Several murine superantigens in association with class II major histocompatibility complex proteins have been shown to cause the deletion of T cells based on the expression of particular beta-chain variable region (V beta) gene segments. We have previously shown that mice expressing the Etc-1 superantigen, encoded by an open reading frame within the 3' long terminal repeat of the endogenous mouse mammary tumor provirus (Mtv), Mtv-9, delete T cells expressing either V beta 5 or V beta 11 gene segments. Comparison of several Mtv 3' long terminal repeat open reading frame sequences has indicated that the carboxyl terminus likely encodes the V beta specificity of these proteins. Our analysis of C57BL/6 x DBA/2 recombinant inbred strains of mouse revealed three Mtv-9-negative strains that nevertheless have a low frequency of V beta 5-expressing T cells. Here we demonstrate that a second endogenous superantigen, responsible for the deletion of V beta 5-bearing T cells, is encoded by a gene mapping to Mtv-6 on chromosome 16. Surprisingly, the carboxyl-terminal sequences of the Mtv-6 and -9 superantigens are extremely divergent, in spite of the fact that they both mediate the deletion of V beta 5+ lymphocytes.

Physiologic expression of two superantigens in the BDF1 mouse

The majority of endogenous superantigens in the mouse (including the Mls loci) is encoded by mouse mammary tumor proviruses (Mtv) carried in the germline. To understand the differences between the highly stimulatory viral superantigens such as Mls-1a (encoded by Mtv-7), which have biologic activity in vivo and in vitro, and the poorly stimulatory viral superantigens such as Etc-1 (encoded by Mtv-9), which are active only in vivo, the physiologic expression of each Ag was studied in the Mtv-7+ (Mls-1a+), Mtv-9+ (Etc-1+) C57BL/6 x DBA/2 F1 (BDF1) mouse. Using the T cell hybridomas, 1BVB11.40 (anti Etc-1) and 18bbm.19 (anti Mls-1a), we found that similar to Mls-1a, B cells from the spleen and from the thymus present the Etc-1 superantigen, whereas macrophages and dendritic cells do not. Small, resting B cells present the Mls-1a and Etc-1 superantigens poorly; however, the same cells treated with LPS or IL-4 are at least eightfold more efficient in the presentation of these gene products. Furthermore, the effects of LPS and IL-4 are synergistic, but this synergy is not fully explained by the enhancement of I-A and I-E expression. The depletion of IgM+ B cells from neonatal BDF1 mice prevents the clonal deletion of V beta 5+ and 11+ (Etc-1-reactive) cells but not the deletion of V beta 6+ and 8.1+ (Mls-1a reactive) T cells. Despite the persistence of Mls-1a-mediated clonal deletion in B cell-depleted BDF1 mice, these results taken together, argue that the highly stimulatory Mls-1a gene product and the weakly stimulatory Etc-1 gene product are expressed on similar cell types and that their presentation is regulated in a similar way by agents active with B lymphocytes. It is argued that the differences between the highly stimulatory and weakly stimulatory superantigens reflect differences in avidity between the relevant V beta domain and its class II MHC protein/superantigenic ligand.

Physiologic expression of two superantigens in the BDF1 mouse

The majority of endogenous superantigens in the mouse (including the Mls loci) is encoded by mouse mammary tumor proviruses (Mtv) carried in the germline. To understand the differences between the highly stimulatory viral superantigens such as Mls-1a (encoded by Mtv-7), which have biologic activity in vivo and in vitro, and the poorly stimulatory viral superantigens such as Etc-1 (encoded by Mtv-9), which are active only in vivo, the physiologic expression of each Ag was studied in the Mtv-7+ (Mls-1a+), Mtv-9+ (Etc-1+) C57BL/6 x DBA/2 F1 (BDF1) mouse. Using the T cell hybridomas, 1BVB11.40 (anti Etc-1) and 18bbm.19 (anti Mls-1a), we found that similar to Mls-1a, B cells from the spleen and from the thymus present the Etc-1 superantigen, whereas macrophages and dendritic cells do not. Small, resting B cells present the Mls-1a and Etc-1 superantigens poorly; however, the same cells treated with LPS or IL-4 are at least eightfold more efficient in the presentation of these gene products. Furthermore, the effects of LPS and IL-4 are synergistic, but this synergy is not fully explained by the enhancement of I-A and I-E expression. The depletion of IgM+ B cells from neonatal BDF1 mice prevents the clonal deletion of V beta 5+ and 11+ (Etc-1-reactive) cells but not the deletion of V beta 6+ and 8.1+ (Mls-1a reactive) T cells. Despite the persistence of Mls-1a-mediated clonal deletion in B cell-depleted BDF1 mice, these results taken together, argue that the highly stimulatory Mls-1a gene product and the weakly stimulatory Etc-1 gene product are expressed on similar cell types and that their presentation is regulated in a similar way by agents active with B lymphocytes. It is argued that the differences between the highly stimulatory and weakly stimulatory superantigens reflect differences in avidity between the relevant V beta domain and its class II MHC protein/superantigenic ligand.

An endogenous retrovirus mediating deletion of alpha beta T cells?

A special class of self-antigens (endogenous superantigens) is capable of deleting many murine T cells on the basis of their expression of particular T-cell receptor V beta gene segments. In mice that endogenously express these antigens, tolerance is mediated in part by the clonal deletion of the relevant V beta-bearing T cells. The deletion of I-E-reactive V beta 5.2-bearing T cells is dependent on the coexpression of an I-E tolerogenic coligand (Etc)14 and the gene for one of these coligands, Etc-1, maps to chromosome 12, near the mouse mammary tumour viral integrant, Mtv-9. Here we report a perfect genetic linkage between Etc-1 and Mtv-9 and show that Etc-1 is also involved in the I-E-dependent deletion of T cells bearing V beta 5.1 and V beta 11 domains. We also demonstrate that Mtv-9 transcripts are present in B cells expressing Etc-1 and suggest that the coligand recognized by roughly 15% of all T lymphocytes is encoded by the Mtv-9 genome.