Human Natural Killer Cell Maturation Defect Supports In Vivo CD56bright to CD56dim Lineage Development

Two populations of human natural killer (NK) cells can be identified in peripheral blood. The majority are CD3-CD56dim cells while the minority exhibits a CD3-CD56bright phenotype. In vitro evidence indicates that CD56bright cells are precursors of CD56dim cells, but in vivo evidence is lacking. Her...

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Detalles Bibliográficos
Autores: Domaica, C.I., Fuertes, M.B., Uriarte, I., Girart, M.V., Sardañons, J., Comas, D.I., Di Giovanni, D., Gaillard, M.I., Bezrodnik, L., Zwirner, N.W.
Tipo de recurso: artículo
Estado:Versión publicada
Fecha de publicación:2012
País:Argentina
Institución:Universidad Nacional de Buenos Aires. Facultad de Ciencias Exactas y Naturales
Repositorio:Biblioteca Digital (UBA-FCEN)
Idioma:inglés
OAI Identifier:paperaa:paper_19326203_v7_n12_p_Domaica
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_19326203_v7_n12_p_Domaica
Access Level:acceso abierto
Palabra clave:CD158 antigen
CD16 antigen
CD3 antigen
CD56 antigen
CD57 antigen
CD94 antigen
cell antigen
cell protein
gamma interferon
natural cytotoxicity triggering receptor 1
natural killer cell receptor NKG2A
natural killer cell receptor NKG2D
perforin
protein 2B4
protein DNAM 1
unclassified drug
adolescent
antigen expression
article
cell lineage
cell maturation
controlled study
cytokine response
down regulation
human
human cell
in vivo study
lymphocyte activation
lymphocyte differentiation
lymphocyte migration
lymphocyte subpopulation
melanoma
natural killer cell
opportunistic infection
phenotypic variation
protein expression
upregulation
Antigens, CD56
Cell Differentiation
Cell Lineage
Flow Cytometry
Humans
Interferon-gamma
K562 Cells
Killer Cells, Natural
Leukocytes, Mononuclear
Descripción
Sumario:Two populations of human natural killer (NK) cells can be identified in peripheral blood. The majority are CD3-CD56dim cells while the minority exhibits a CD3-CD56bright phenotype. In vitro evidence indicates that CD56bright cells are precursors of CD56dim cells, but in vivo evidence is lacking. Here, we studied NK cells from a patient that suffered from a melanoma and opportunistic fungal infection during childhood. The patient exhibited a stable phenotype characterized by a reduction in the frequency of peripheral blood CD3-CD56dim NK cells, accompanied by an overt increase in the frequency and absolute number of CD3-CD56bright cells. These NK cells exhibited similar expression of perforin, CD57 and CD158, the major activating receptors CD16, NKp46, NKG2D, DNAM-1, and 2B4, as well as the inhibitory receptor CD94/NKG2A, on both CD56bright and CD56dim NK cells as healthy controls. Also, both NK cell subpopulations produced IFN-γ upon stimulation with cytokines, and CD3-CD56dim NK cells degranulated in response to cytokines or K562 cells. However, upon stimulation with cytokines, a substantial fraction of CD56dim cells failed to up-regulate CD57 and CD158, showed a reduction in the percentage of CD16+ cells, and CD56bright cells did not down-regulate CD62L, suggesting that CD56dim cells could not acquire a terminally differentiated phenotype and that CD56bright cells exhibit a maturation defect that might result in a potential altered migration pattern. These observations, support the notion that NK cells of this patient display a maturation/activation defect that precludes the generation of mature NK cells at a normal rate accompanied by CD56dim NK cells that cannot completely acquire a terminally differentiated phenotype. Thus, our results provide evidence that support the concept that in vivo CD56bright NK cells differentiate into CD56dim NK cells, and contribute to further understand human NK cell ontogeny. © 2012 Domaica et al.