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Browsing SHC - Artigos publicados em revistas indexadas na Pubmed/Medline by Author "ALMEIDA, J."
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- Clinicobiological, immunophenotypic, and molecular characteristics of monoclonal CD56‐/+dim chronic natural killer cell large granular lymphocytosis.Publication . LIMA, M.; ALMEIDA, J.; MONTERO, A.G.; TEIXEIRA M DOS, A.; QUEIROS, M.L.; SANTOS, A.H.; BALANZATEGUI, A.; ESTEVINHO, A.; ALGUERO MDEL, C.; BARCENA, P.; FONSECA, S.; AMORIM, M.L.; CABEDA, J.M.; PINHO, L.; GONZALEZ, M.; SAN MIGUEL, J.; JUSTICA, B.; ORFAO, A.Am J Pathol. 2004 Oct;165(4):1117-27. Clinicobiological, immunophenotypic, and molecular characteristics of monoclonal CD56-/+dim chronic natural killer cell large granular lymphocytosis. Lima M, Almeida J, Montero AG, Teixeira Mdos A, Queirós ML, Santos AH, Balanzategui A, Estevinho A, Algueró Mdel C, Barcena P, Fonseca S, Amorim ML, Cabeda JM, Pinho L, Gonzalez M, San Miguel J, Justiça B, Orfão A. Serviço de Hematologia, Unidade de Citometria, Hospital Geral de Santo António, Rua D Manuel II, s/n, 4099-001 Porto, Portugal. mmc.lima@clix.pt. Abstract Indolent natural killer (NK) cell lymphoproliferative disorders include a heterogeneous group of patients in whom persistent expansions of mature, typically CD56(+), NK cells in the absence of any clonal marker are present in the peripheral blood. In the present study we report on the clinical, hematological, immunophenotypic, serological, and molecular features of a series of 26 patients with chronic large granular NK cell lymphocytosis, whose NK cells were either CD56(-) or expressed very low levels of CD56 (CD56(-/+dim) NK cells), in the context of an aberrant activation-related mature phenotype and proved to be monoclonal using the human androgen receptor gene polymerase chain reaction-based assay. As normal CD56(+) NK cells, CD56(-/+dim) NK cells were granzyme B(+), CD3(-), TCRalphabeta/gammadelta(-), CD5(-), CD28(-), CD11a(+bright), CD45RA(+bright), CD122(+), and CD25(-) and they showed variable and heterogeneous expression of both CD8 and CD57. Nevertheless, they displayed several unusual immunophenotypic features. Accordingly, besides being CD56(-/+dim), they were CD11b(-/+dim) (heterogeneous), CD7(-/+dim) (heterogeneous), CD2(+) (homogeneous), CD11c(+bright) (homogeneous), and CD38(-/+dim) (heterogeneous). Moreover, CD56(-/+dim) NK cells heterogeneously expressed HLA-DR. In that concerning the expression of killer receptors, CD56(-/+dim) NK cells showed bright and homogeneous CD94 expression, and dim and heterogeneous reactivity for CD161, whereas CD158a and NKB1 expression was variable. From the functional point of view, CD56(-/+dim) showed a typical Th1 pattern of cytokine production (interferon-gamma(+), tumor necrosis factor-alpha(+)). From the clinical point of view, these patients usually had an indolent clinical course, progression into a massive lymphocytosis with lung infiltration leading to death being observed in only one case. Despite this, they frequently had associated cytopenias as well as neoplastic diseases and/or viral infections. In summary, we describe a unique and homogeneous group of monoclonal chronic large granular NK cell lymphocytosis with an aberrant activation-related CD56(-/+dim)/CD11b(-/+dim) phenotype and an indolent clinical course, whose main clinical features are related to concomitant diseases. PMID: 15466379 [PubMed - indexed for MEDLINE]PMCID: PMC1618630
- Immunophenotype and TCR‐Vbeta repertoire of peripheral blood T‐cells in acute infectious mononucleosis.Publication . LIMA, M.; TEIXEIRA, M.; QUEIROS, M.L.; SANTOS, A.H.; GONCALVES, C.; CORREIA, J.; FARINHA, F.; MENDONCA, F.; SOARES, J.M.; ALMEIDA, J.; ORFAO, A.; JUSTICA, B.Blood Cells Mol Dis. 2003 Jan-Feb;30(1):1-12. Immunophenotype and TCR-Vbeta repertoire of peripheral blood T-cells in acute infectious mononucleosis. Lima M, Teixeira Mdos A, Queirós ML, Santos AH, Gonçalves C, Correia J, Farinha F, Mendonça F, Soares JM, Almeida J, Orfão A, Justiça B. Service of Clinical Haematology, Hospital Santo António, Porto, Portugal. mmc.lima@clix.pt Abstract Although a number of studies on the phenotypic changes that occur after T-cell activation have already been published, the specific immunophenotypic features of T-lymphocytes and the frequency at which TCR-variable region (TCR-V) restricted T-cell expansions occur "in vivo" during acute viral infection still remains to be established. We report on the immunophenotype and TCR-V repertoire of peripheral blood T-cells from 28 patients with acute infectious mononucleosis. Immunophenotypic studies were performed by flow cytometry using direct immunofluorescence techniques and stain-and-then-lyse sample preparation protocols with three- and four-colour combinations of monoclonal antibodies directed against a large panel of T- and NK-cell associated markers, activation- and adhesion-related molecules and TCR-Vbeta, -Vgamma and -Vdelta families. Nearly all patients (27/28) showed a massive expansion of CD8(+)/TCRalphabeta(+) T cells, the majority (>90%) of which displayed an immunophenotype compatible with T-cell activation: CD2(+high), CD7(+low), CD11a(+high), CD38(+high), HLA-DR(+high), CD28(+/-low), CD45RO(+high), CD45RA(-/+low), CD11b(-/+low), CD11c(+/-low), CD16(-), CD56(-), CD57(-), CD62L(-), CD94(-), CD158a(-), CD161(-), NKB1(-). Additionally, the levels of both CD3 and CD5 were slightly decreased compared to those found in normal individuals. Late-activation antigens, such as CD57, were found in small proportions of CD8(+)/TCRalphabeta(+) T-cells. Increased numbers of CD4(+)/TCRalphabeta(+) T-cells, TCRgammadelta(+) T-cells and NK-cells were also noticed in 17, 16 and 13 of the 28 cases studied, respectively. Evidence for activation of CD4(+)/TCRalphabeta(+) and TCRgammadelta(+) T-cells relied on changes similar to those described for CD8(+)/TCRalphabeta(+) although less pronounced, except for higher levels of both CD5 and CD28 in the absence of reactivity for CD11c on CD4(+)/TCRalphabeta(+) T-cells and higher levels of CD161 and CD94 on TCRgammadelta(+) T-cells. Small expansions of one or more TCR-Vbeta families accounting for 12 +/- 7% of either the CD8(+)/TCRalphabeta(+) or the CD4(+)/TCRalphabeta(+) T-cell compartment were found in 12 of 14 patients studied, whereas the distribution of the TCR-Vgamma and -Vdelta repertoires tested in 2 of the individuals with expanded TCRgammadelta(+) T-cells was similar to that observed in control individuals. The results presented here provide evidence for an extensive T-cell activation during acute viral infection and establish the immunophenotype patterns associated with this condition. PMID: 12667982 [PubMed - indexed for MEDLINE]
- Immunophenotypic analysis of the TCR‐Vbeta repertoire in 98 persistent expansions of CD3(+)/TCR‐alphabeta(+) large granular lymphocytes: utility in assessing clonality and insights into the pathogenesis of the diseasePublication . LIMA, M.; ALMEIDA, J.; SANTOS, A.H.; DOS ANJOS TEIXEIRA, M.; ALGUERO, M.C.; QUEIROS, M.L.; BALANZATEGUI, A.; JUSTICA, B.; GONZALEZ, M.; SAN MIGUEL, J.F.; ORFAO, A.Am J Pathol. 2001 Nov;159(5):1861-8. Immunophenotypic analysis of the TCR-Vbeta repertoire in 98 persistent expansions of CD3(+)/TCR-alphabeta(+) large granular lymphocytes: utility in assessing clonality and insights into the pathogenesis of the disease. Lima M, Almeida J, Santos AH, dos Anjos Teixeira M, Alguero MC, Queirós ML, Balanzategui A, Justiça B, Gonzalez M, San Miguel JF, Orfão A. Serviço de Hematologia Clínica, Unidade de Citometria, Hospital Geral de Santo António, Porto, Portugal. mmc.lima@clix.pt Abstract At present, a major challenge in the initial diagnosis of leukemia of large granular lymphocytes (LGLs) is to establish the clonal nature of the expanded population. In the present study we have analyzed by flow cytometry immunophenotyping the TCR-Vbeta repertoire of 98 consecutive cases of persistent expansions of CD4(+) or CD8(+bright) CD3(+)/TCR-alphabeta(+) LGLs and compared the results with those obtained in molecular studies of TCR-beta gene rearrangements. Fifty-eight cases were considered to be monoclonal in molecular studies whereas in the remaining 40 cases there was no evidence for monoclonality (11 cases were considered oligoclonal and 29 polyclonal). The TCR-Vbeta repertoire was biased to the preferential use of one or more TCR-Vbeta families in 96% of cases, a total of 124 TCR-Vbeta expansions being diagnosed: one TCR-Vbeta expansion in 71 cases and two or more TCR-Vbeta expansions in 23 cases. The highest TCR-Vbeta expansion observed in each case was higher among monoclonal (74 +/- 19%) as compared to nonmonoclonal cases (24 +/- 14%) (P = 0.001), as did the fraction of LGLs that exhibited a TCR-Vbeta-restricted pattern (86 +/- 16% and 42 +/- 23%, respectively; P = 0.0001); by contrast, the proportion of cases displaying more than one TCR-Vbeta expansion was higher in the latter group: 7% versus 48%, respectively (P = 0.001). Results obtained in oligoclonal cases were intermediate between those obtained in polyclonal and monoclonal cases and similar results were observed for CD4(+) as for CD8(+bright) T-cell expansions. TCR-Vbeta families expressed in CD8(+bright) T-cell-LGL proliferations showed a pattern of distribution that mimics the frequency at which the individual TCR-Vbeta families are represented in normal peripheral blood T cells. Assuming that a given proliferation of LGLs is monoclonal whenever there is an expansion of a given TCR-Vbeta family of at least 40% of the total CD4(+) or CD8(+bright) T-cell compartment, we were able to predict clonality with a sensitivity of 93% and a specificity of 80%. By increasing the cut-off value to 60%, sensitivity and specificity were of 81% and 100%. In summary, our results suggest that flow cytometry immunophenotypic analysis of the TCR-Vbeta repertoire is a powerful screening tool for the assessment of T-cell clonality in persistent expansions of TCR-alphabeta(+) LGLs. PMID: 11696446 [PubMed - indexed for MEDLINE]PMCID: PMC1867049
- Immunophenotypic approach to the identification andPublication . PEREZ‐ANDRES, M.; SANTIAGO, M.; ALMEIDA, J.; MATEO, G.; PORWIT‐MACDONALD, A.; BJORKLUND, E.; VALET, G.; KRAAN, J.; GRATAMA, J.W.; D'HAUTCOURT, J.L.; MERLE‐BERAL, H.; LIMA, M.; MONTALBAN, M.A.; SAN MIGUEL, J.F.; ORFAO, I.; EUROPEAN WORKING GROUP ON CLINICAL CELL ANALYSIS, SPANISH NETWORK ONBiol Regul Homeost Agents. 2004 Jul-Dec;18(3-4):392-8. Immunophenotypic approach to the identification and characterization of clonal plasma cells from patients with monoclonal gammopathies. Pérez-Andrés M, Santiago M, Almeida J, Mateo G, Porwit-MacDonald A, Bjorklund E, Valet G, Kraan J, Gratama JW, D'Hautcourt JL, Merle-Beral H, Lima M, Montalban MA, San Miguel JF, Orfao I; European Working Group on Clinical Cell Analysis; Spanish Network on Multiple Myeloma. Service of Cytometry, Centro de Investigación del Cáncer, Salamanca, Spain. PMID: 15786710 [PubMed - indexed for MEDLINE]
- Reactive phenotypes after acute and chronic NK‐cell activationPublication . LIMA, M; ALMEIDA, J.; TEIXEIRA, M.A.; SANTOS, A.H.; QUEIROS, M.L.; FONSECA, S.; MOURA, J.; GONCALVES, M.; ORFAO, A.; PINTO RIBEIRO, A.C.J Biol Regul Homeost Agents. 2004 Jul-Dec;18(3-4):331-4. Reactive phenotypes after acute and chronic NK-cell activation. Lima M, Almeida J, Teixeira MA, Santos AH, Queirós ML, Fonseca S, Moura J, Gonçalves M, Orfão A, Pinto Ribeiro AC. Service of Clinical Hematology, Laboratory of Cytometry, Hospital Geral de Santo António, Porto, Portugal. mmc.lima@clix.pt Abstract Several phenotypic changes have been shown to occur after NK-cell stimulation, involving molecules that have been proved to regulate NK-cell migration into tissues and NK-cell activation and proliferation as well as target cell recognition and killing. Here, we review the reactive phenotypes observed in vivo after acute and chronic NK-cell activation. PMID: 15786700 [PubMed - indexed for MEDLINE]
- TCRalphabeta+/CD4+ large granular lymphocytosis: a new clonal T‐cell lymphoproliferative disorder.Publication . LIMA, M.; ALMEIDA, J.; DOS ANJOS TEIXEIRA, M.; ALGUERO, M.D.; MDEL, C.; SANTOS, A.H.; BALANZATEGUI, A.; QUEIROS, M.L.; BARCENA, P.; IZARRA, A.; FONSECA, S.; BUENO, C.; JUSTICA, B.; GONZALEZ, M.; SAN MIGUEL, J.F.; ORFAO, A.Am J Pathol. 2003 Aug;163(2):763-71. TCRalphabeta+/CD4+ large granular lymphocytosis: a new clonal T-cell lymphoproliferative disorder. Lima M, Almeida J, Dos Anjos Teixeira M, Alguero Md Mdel C, Santos AH, Balanzategui A, Queirós ML, Bárcena P, Izarra A, Fonseca S, Bueno C, Justiça B, Gonzalez M, San Miguel JF, Orfao A. Serviço de Hematologia Clinica, Unidade de Citometria, Hospital Geral de Santo Antonio, Porto, Portugal. Abstract Large granular lymphocyte (LGL) leukemia is a well-recognized disease of mature T-CD8(+) or less frequently natural killer cells; in contrast, monoclonal expansions of CD4(+) T-LGL have only been sporadically reported in the literature. In the present article we have explored throughout a period of 56 months the incidence of monoclonal expansions of CD4(+) T-LGL in a population of 2.2 million inhabitants and analyzed the immunophenotype and the pattern of cytokine production of clonal CD4(+) T cells of a series of 34 consecutive cases. Like CD8(+) T-LGL leukemias, CD4(+) T-LGL leukemia patients have an indolent disease; however, in contrast to CD8(+) T-LGL leukemias, they do not show cytopenias and autoimmune phenomena and they frequently have associated neoplasias, which is usually determining the clinical course of the disease. Monoclonal CD4(+) T-LGLshowed expression of TCRalphabeta, variable levels of CD8 (CD8(-/+dim)) and a homogeneous typical cytotoxic (granzyme B(+), CD56(+), CD57(+), CD11b(+/-)) and activated/memory T cell (CD2(+bright), CD7(-/+dim), CD11a(+bright), CD28(-), CD62L(-) HLA-DR(+)) immunophenotype. In addition, they exhibited a Th1 pattern of cytokine production [interferon-gamma(++), tumor necrosis factor-alpha(++), interleukin (IL-2)(-/+), IL-4(-), IL-10(-), IL-13(-)]. Phenotypic analysis of the TCR-Vbeta repertoire revealed large monoclonal TCR-Vbeta expansions; only a restricted number of TCR-Vbeta families were represented in the 34 cases analyzed. These findings suggest that monoclonal TCRalphabeta(+)/CD4(+)/NKa(+)/CD8(-/+dim) T-LGL represent a subgroup of monoclonal LGL lymphoproliferative disorders different from both CD8(+) T-LGL and natural killer cell-type LGL leukemias. Longer follow-up periods are necessary to determine the exact significance of this clonal disorder.
- The "ex vivo" patterns of CD2/CD7, CD57/CD11c, CD38/CD11b, CD45RA/CD45RO, and CD11a/HLA‐DR expression identify acute/early and chronic/late NK‐cell activation states.Publication . LIMA, M.; ALMEIDA, J.; DOS ANJOS TEIXEIRA, M.; QUEIROS, M.L.; JUSTICA, B.; ORFAO, A.Blood Cells Mol Dis. 2002 Mar-Apr;28(2):181-90. The "ex vivo" patterns of CD2/CD7, CD57/CD11c, CD38/CD11b, CD45RA/CD45RO, and CD11a/HLA-DR expression identify acute/early and chronic/late NK-cell activation states. Lima M, Almeida J, dos Anjos Teixeira M, Queirós ML, Justiça B, Orfão A. Service of Clinical Hematology, Hospital Geral de Santo António, Porto, Portugal. mmc.lima@clix.pt Abstract To define a dynamic sequence of phenotypic changes related to early and late phases of NK-cell activation, we have analyzed by four-color flow cytometry the immunophenotype of normal blood NK-cells from 12 healthy individuals and compared it with those from 15 patients with acute viral infections and 15 patients with either chronic infections or tumors. Although a great interindividual variability was found, nonstimulated CD56(+) NK-cells, present in normal blood samples, usually were CD2(-/+lo), CD7(+hi), HLA-DR(-), CD11b(+), CD38(+), CD11a(+hi), CD45RA(+hi), and CD45RO(-), the expression of CD11c and CD57 being heterogeneous and variable. Recently activated NK-cells, herein corresponding to NK-cells from patients with acute viral infections, displayed a pattern of expression of CD2/CD7 similar to that referred to above, but they typically showed higher levels of CD11a, CD38, and HLA-DR, as well as downregulation of CD11b and CD45RA, accompanied in some cases by coexpression of CD45RO; in addition, these NK-cells were CD11c(+) and CD57(-/+lo). Late-activated NK-cells, represented by NK-cells present in patients with chronic infections and tumors, converted into a CD2(+hi)/CD7(-/+lo) immunophenotype and expressed heterogeneously low levels of CD38 and CD11b; moreover, they were CD57(+) and CD11c(-/+). At this stage, most NK-cells had already reverted into their original CD45RA(+)/CD45RO(-)/HLA-DR(-) phenotype. In summary, we show that the patterns of expression of CD2/CD7, CD57/CD11c, CD38/CD11b, CD45RA/CD45RO, and CD11a/HLA-DR may help us to define the immunophenotypic profiles associated with early and late NK-cell activation phases in 'in vivo' models. PMID: 12064914 [PubMed - indexed for MEDLINE]