Laboratory findings in CD4(+) large granular lymphocytoses.

Large granular lymphocytic (LGL) leukemia is an uncommon disorder of mature T or natural killer (NK) cells. Most T-LGL proliferations are CD3(+)/CD8(+), although rare CD4(+) clonal T-LGL expansions have been reported. We report the clinicopathologic features of eight patients with aberrant CD4(+), cytotoxic T-cell lymphocytoses. Median follow-up was 29 months (range 8-100), during which all were alive without requirement for therapy. Four of eight patients had an additional malignancy; none had a history of rheumatoid arthritis, lymphadenopathy or hepatosplenomegaly. Morphologic expansions of granulated lymphocytes were evident in 6/8. All had immunophenotypically aberrant populations of CD4(+) T cells with uniform, moderate or bright CD56. Seven of eight expressed CD57, and four were CD8(partial dim +). Abnormal levels of expression of two or more T-cell antigens were seen in all cases. All tested cases were Tgamma PCR positive. Our results support that CD4(+) T-LGL lymphocytosis is a clonal disorder with clinicopathologic characteristics distinct from the more common CD8(+) variant.

Characterizing the mechanisms of progression in multiple sclerosis: evidence and new hypotheses for future directions.

Major advancements have been achieved in our ability to diagnose multiple sclerosis (MS) and to commence treatment intervention with agents that can favorably affect the disease course. Although MS exacerbations and the emergence of disability constitute the more conspicuous aspects of the disease process, evidence has confirmed that most of the disease occurs on a constitutive and occult basis. Disease-modifying therapies appear to be modest in the magnitude of their treatment effects, particularly in the progressive stage of the disease. Therapeutic strategies currently used for MS primarily target the inflammatory cascade. Several potential mechanisms appear to be involved in the progression of MS. Characterizing these mechanisms will result in a better understanding of the various forms of the disorder and how to effectively treat its clinical manifestations. It is our objective within this 2-part series on progression in MS to offer both evidence-based observations and hypothesis-driven expert perspectives on what constitutes the cause of progression in MS. We have chosen areas of inquiry that appear to have been most productive in helping us to better conceptualize the landscape of what MS looks like pathologically, immunologically, neuroscientifically, radiographically, and genetically. We have attempted to advance hypotheses focused on a deeper understanding of what contributes to the progression of this illness and to illustrate new technical capabilities that are catalyzing novel research initiatives targeted at achieving a more complete understanding of progression in MS.

Transient myeloproliferative disorder and acute myeloid leukemia in Down syndrome. An immunophenotypic analysis.

Immunophenotypic analysis of transient myeloproliferative disorder (TMD) and acute myeloid leukemia (AML) using multiparameter flow cytometry might provide insight into their relationship. We retrospectively analyzed the expression of multiple lymphoid, myelomonocytic, and megakaryocytic antigens on blast proliferations in 18 patients with Down syndrome (DS; AML, 9; TMD, 9). The AMLs and TMDs shared several immunophenotypic characteristics. Blasts in all expressed CD45, CD38, and CD33; most AMLs and all TMDs were CD36+; and the majority expressed CD41 and CD61, suggesting megakaryocytic differentiation. The majority of cases were CD34+, CD14-, and CD64-. There was aberrant expression of the T-cell-associated antigen CD7 in most AMLs and TMDs. CD56 was expressed aberrantly in 5 AMLs and 7 TMDs. The major difference between the disorders was the pattern of expression of myeloid markers CD11b and CD13; each was expressed in 8 AMLs but only 2 TMDs. Blasts were HLA-DR-positive in 3 AMLs vs 7 TMDs. Blasts in TMD and AML in DS have a characteristic immunophenotype distinct from AML in other settings. The immunophenotypic similarities suggest a biologic relationship between the disorders; however, distinct immunophenotypic differences also were observed.

CTLA-4 downregulates epitope spreading and mediates remission in relapsing experimental autoimmune encephalomyelitis.

During the progression of relapsing experimental autoimmune encephalomyelitis (R-EAE), in SJL mice, disease relapses are mediated by T cells specific for non-cross-reactive myelin epitopes, a process termed 'epitope spreading'. CTLA-4, a negative regulator of T cell function modulates R-EAE, in that CTLA-4 blockade exacerbates clinical R-EAE. Herein, we show that CTLA-4-mediated signaling negatively regulates the dynamic spread of autoreactive T cell responses during the course of autoimmune disease. Anti-CTLA-4 mAb, administration at various points during the progression of R-EAE exacerbated subsequent clinical disease and enhanced T cell reactivity to both inducing and relapse-associated epitopes. In addition, CTLA-4 blockade during acute disease inhibited clinical remission. Thus, CTLA-4-mediated events are critical for intrinsic regulation of epitope spreading during autoimmune disease.

Targeting the B7/CD28:CTLA-4 costimulatory system in CNS autoimmune disease.

The B7/CD28:CTLA-4 costimulatory pathway plays a critical role in determining the fate of immune responses (activation vs. down-regulation) and is a highly promising therapeutic target for treating autoimmune diseases. In this review, we highlight the mechanisms by which this costimulatory pathway operates emphasizing the role of the different components in the pathogenesis of relapsing experimental autoimmune encephalomyelitis, a CD4 T cell-mediated autoimmune model of multiple sclerosis. The separate and distinct roles of B7-1, B7-2 and CTLA-4 in positive and negative regulation of autoimmune pathogenesis are considered and a working model is proposed.

Tissue-specific up-regulation of B7-1 expression and function during the course of murine relapsing experimental autoimmune encephalomyelitis.

B7/CD28-mediated costimulation is a promising target for therapeutic intervention in autoimmune diseases. However, studies addressing the differential functional roles of B7-1 and B7-2 in several autoimmune models have resulted in conflicting data, perhaps due to the temporal dynamics of B7-1 and B7-2 surface expression on different cell types and/or at different sites during an autoimmune response. We examined the temporal expression of B7 costimulatory molecules in the CNS and in various lymphoid organs during the course of murine relapsing-remitting experimental autoimmune encephalomyelitis (R-EAE). Following immunization of SJL mice with the immunodominant proteolipid protein epitope, PLP139-151, surface expression of B7-1 was up-regulated on B cells, T cells, and macrophages, relative to B7-2, on CNS-infiltrating cells and on splenocytes. Similar enhancement in splenic B7-1 expression could be induced in SJL mice by the adoptive transfer of PLP139-151-specific cells or by immunization with CFA alone. These changes were not observed on lymph node cells, including those isolated from lymph nodes draining the immunization site, which maintained the predominant B7-2 expression pattern seen in naive mice. These phenotypic expression patterns correlated with the functional predominance of B7-1 in costimulating T cell activation when employing APCs from the spleen or CNS of mice with ongoing R-EAE, while B7-2 remained functionally predominant on lymph node APCs. Variation of phenotypic expression and functional dominance of costimulatory molecule expression in different lymphoid compartments during an active inflammatory autoimmune response has important implications in immune regulation, autoimmune pathogenesis, and therapeutic strategies.

Treatment with intact anti-B7-1 mAb during disease remission enhances epitope spreading and exacerbates relapses in R-EAE.

PLP139-151-induced experimental autoimmune encephalomyelitis in the SJL mouse is a Th1-mediated inflammatory demyelinating disease characterized by a relapsing-remitting clinical course (R-EAE). Clinical relapses are mediated by T cells specific for a non-cross reactive secondary PLP epitope (PLP178-191) induced by epitope spreading. We have previously shown that B7-1 expression is upregulated in SJL mice undergoing R-EAE and in vivo treatment during remission with F(ab) fragments of anti-B7-1 mAb, blocked epitope spreading and disease progression. In contrast, the present study shows that treatment with intact anti-B7-1 mAb exacerbated clinical disease relapses and enhanced CNS demyelination. Anti-B7-1-treated mice showed enhanced in vivo delayed-type hypersensitivity (DTH) to the relapse-associated PLP178-191 epitope and responses to the immunodominant MBP84-104 epitope which are absent in the controls. Thus, ligation of B7-1 by intact mAbs has effects opposite to those of anti-B7-1 F(ab) fragments suggesting that the mAb is directly signaling through B7-1 expressed on T cells and/or APCs.

Degenerate antigen recognition by CD4+ effector T cells in experimental autoimmune encephalomyelitis.

Peptide-specific tolerance with PLP139-151 peptide analogs was used to compare the fine antigen-specificity requirements at both the inductive and effector phases of relapsing EAE (R-EAE). A PLP139-151 analog peptide containing a single substitution at the primary T cell receptor (TcR) contact residue (A144) did not induce proliferation in PLP139-151-primed CD4+ T cells. In addition, tolerance induced with ECDI-treated. A144-coupled splenocytes failed to prevent the inductive phase of PLP139-151-induced R-EAE or to inhibit the induction of peptide-specific DTH indicating that naive PLP139-151-specific T cells do not react with the A144 peptide analog. In contrast, A144-coupled splenocytes did prevent the expression of the effector phase of R-EAE and inhibited the elicitation of peptide-specific DTH responses upon administration to mice seven days after immunization with PLP139-151. The results provide in vivo evidence that "antigen-experienced' T cells recognize a broader repertoire of antigens than do naive T cells and have important implications for the regulation of immune responses and for advancing our understanding of the pathogenesis and treatment of autoimmune disease.

Gender differentials in the social impact of leprosy.

Prevalence rates of leprosy have reduced considerably in many states where multidrug therapy is in operation. However, reduction in prevalence alone is not sufficient as the social consequences of the diseases on the life of the patient are often severe and persist even after its cure. The present paper, therefore, investigates social impact with special reference to gender differentials. Data obtained from structured questionnaires (n = 606) is analysed for this purpose. It was observed that the initial delay in identifying the skin changes as the symptoms of the disease were higher for females (29 months) than males (24 months). Even after identifying the symptoms, women were observed to depend exclusively on nonmedical treatment for a longer period (10 months) than males (6 months). Upon starting the medical treatment females were observed to be more compliant than males, but the benefits of regularity appeared to be outweighed by the initial delay in starting medical treatment. The social impact on daily life was more severe for females than males as revealed by the isolation from daily activities, such as, restrictions on participation in familial functions, restrictions on touching children. The paper highlights implications of gender bias on detection and treatment, and suggests modifications for control programmes.

CTLA-4: a negative regulator of autoimmune disease.

CTLA-4, a CD28 homologue expressed on activated T cells, binds with high affinity to the CD28 ligands, B7-1 (CD80) and B7-2 (CD86). This study was designed to examine the role of CTLA-4 in regulating autoimmune disease. Murine relapsing-remitting experimental autoimmune encephalomyelitis (R-EAE) is a demyelinating disease mediated by PLP139-151-specific CD4+ T cells in SJL/J mice. Anti-CTLA-4 mAbs (or their F(ab) fragments) enhanced in vitro proliferation and pro-inflammatory cytokine production by PLP139-151-primed lymph node cells. Addition of either reagent to in vitro activation cultures potentiated the ability of T cells to adoptively transfer disease to naive recipients. In vivo administration of anti-CTLA-4 mAb to recipients of PLP139-151-specific T cells resulted in accelerated and exacerbated disease. Finally, anti-CTLA-4 treatment of mice during disease remission resulted in the exacerbation of relapses. Collectively, these results suggest that CTLA-4 mediates the downregulation of ongoing immune responses and plays a major role in regulating autoimmunity.

Blockade of CD28/B7-1 interaction prevents epitope spreading and clinical relapses of murine EAE.

Relapsing experimental autoimmune encephalomyelitis (R-EAE) induced with the immunodominant epitope from proteolipid protein, PLP139-151, is characterized by the development of recurrent relapses with recruitment of T cells reactive to additional myelin peptides, including PLP178-191 (epitope spreading). In this study, we have determined that the CD28/B7 costimulatory pathway is involved in this process. We found preferential up-regulation of B7-1 during the course of R-EAE and a selective increase in its functional costimulatory activity, relative to B7-2. Anti B7-1 F(ab) fragment therapy, but not anti B7-2 MAb therapy, blocked clinical relapses, ameliorated CNS pathology, and blocked epitope spreading. These results suggest that the maintenance of autoimmune reactivity in EAE depends on CD28/B7-1-dependent costimulation of newly recruited T cells responsible for epitope spreading. These studies have important implications for the role of epitope spreading in disease progression and the clinical application of costimulatory antagonists in autoimmune diseases.