Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3

Eric S. Alonzo; Rachel A. Gottschalk; Joy Das; Takeshi Egawa; Robin M. Hobbs; Pier Paolo Pandolfi; Pablo Pereira; Kim E. Nichols; Gary A. Koretzky; Martha S. Jordan; Derek B. Sant'Angelo

doi:10.4049/jimmunol.0903218

Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3

Eric S. Alonzo, Rachel A. Gottschalk, Joy Das, Takeshi Egawa, Robin M. Hobbs, Pier Paolo Pandolfi, Pablo Pereira, Kim E. Nichols, Gary A. Koretzky, Martha S. Jordan, Derek B. Sant'Angelo

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127 Scopus citations

Abstract

The broad-complex tramtrack and bric a brac-zinc finger transcriptional regulator(BTB-ZF), promyelocytic leukemia zinc finger (PLZF), was recently shown to control the development of the characteristic innate T cell phenotype and effector functions of NK T cells. Interestingly, the ectopic expression of PLZF was shown to push conventional T cells into an activated state that seems to be proinflammatory. The factors that control the normal expression of PLZF in lymphocytes are unknown. In this study, we show that PLZF expression is not restricted to NK T cells but is also expressed by a subset of γδ T cells, functionally defining distinct subsets of this innate T cell population. A second BTB-ZF gene, ThPOK, is important for the phenotype of the PLZF-expressing γδ T cells. Most importantly, TCR signal strength and expression of inhibitor of differentiation gene 3 control the frequency of PLZF-expressing γδ T cells. This study defines the factors that control the propensity of the immune system to produce potentially disease-causing T cell subsets.

Original language	English
Pages (from-to)	1268-1279
Number of pages	12
Journal	Journal of Immunology
Volume	184
Issue number	3
DOIs	https://doi.org/10.4049/jimmunol.0903218
State	Published - Feb 1 2010

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Alonzo, E. S., Gottschalk, R. A., Das, J., Egawa, T., Hobbs, R. M., Pandolfi, P. P., Pereira, P., Nichols, K. E., Koretzky, G. A., Jordan, M. S., & Sant'Angelo, D. B. (2010). Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3. Journal of Immunology, 184(3), 1268-1279. https://doi.org/10.4049/jimmunol.0903218

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title = "Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3",

abstract = "The broad-complex tramtrack and bric a brac-zinc finger transcriptional regulator(BTB-ZF), promyelocytic leukemia zinc finger (PLZF), was recently shown to control the development of the characteristic innate T cell phenotype and effector functions of NK T cells. Interestingly, the ectopic expression of PLZF was shown to push conventional T cells into an activated state that seems to be proinflammatory. The factors that control the normal expression of PLZF in lymphocytes are unknown. In this study, we show that PLZF expression is not restricted to NK T cells but is also expressed by a subset of γδ T cells, functionally defining distinct subsets of this innate T cell population. A second BTB-ZF gene, ThPOK, is important for the phenotype of the PLZF-expressing γδ T cells. Most importantly, TCR signal strength and expression of inhibitor of differentiation gene 3 control the frequency of PLZF-expressing γδ T cells. This study defines the factors that control the propensity of the immune system to produce potentially disease-causing T cell subsets.",

author = "Alonzo, {Eric S.} and Gottschalk, {Rachel A.} and Joy Das and Takeshi Egawa and Hobbs, {Robin M.} and Pandolfi, {Pier Paolo} and Pablo Pereira and Nichols, {Kim E.} and Koretzky, {Gary A.} and Jordan, {Martha S.} and Sant'Angelo, {Derek B.}",

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Alonzo, ES, Gottschalk, RA, Das, J, Egawa, T, Hobbs, RM, Pandolfi, PP, Pereira, P, Nichols, KE, Koretzky, GA, Jordan, MS & Sant'Angelo, DB 2010, 'Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3', Journal of Immunology, vol. 184, no. 3, pp. 1268-1279. https://doi.org/10.4049/jimmunol.0903218

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T1 - Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3

AU - Alonzo, Eric S.

AU - Gottschalk, Rachel A.

AU - Das, Joy

AU - Egawa, Takeshi

AU - Hobbs, Robin M.

AU - Pandolfi, Pier Paolo

AU - Pereira, Pablo

AU - Nichols, Kim E.

AU - Koretzky, Gary A.

AU - Jordan, Martha S.

AU - Sant'Angelo, Derek B.

PY - 2010/2/1

Y1 - 2010/2/1

N2 - The broad-complex tramtrack and bric a brac-zinc finger transcriptional regulator(BTB-ZF), promyelocytic leukemia zinc finger (PLZF), was recently shown to control the development of the characteristic innate T cell phenotype and effector functions of NK T cells. Interestingly, the ectopic expression of PLZF was shown to push conventional T cells into an activated state that seems to be proinflammatory. The factors that control the normal expression of PLZF in lymphocytes are unknown. In this study, we show that PLZF expression is not restricted to NK T cells but is also expressed by a subset of γδ T cells, functionally defining distinct subsets of this innate T cell population. A second BTB-ZF gene, ThPOK, is important for the phenotype of the PLZF-expressing γδ T cells. Most importantly, TCR signal strength and expression of inhibitor of differentiation gene 3 control the frequency of PLZF-expressing γδ T cells. This study defines the factors that control the propensity of the immune system to produce potentially disease-causing T cell subsets.

AB - The broad-complex tramtrack and bric a brac-zinc finger transcriptional regulator(BTB-ZF), promyelocytic leukemia zinc finger (PLZF), was recently shown to control the development of the characteristic innate T cell phenotype and effector functions of NK T cells. Interestingly, the ectopic expression of PLZF was shown to push conventional T cells into an activated state that seems to be proinflammatory. The factors that control the normal expression of PLZF in lymphocytes are unknown. In this study, we show that PLZF expression is not restricted to NK T cells but is also expressed by a subset of γδ T cells, functionally defining distinct subsets of this innate T cell population. A second BTB-ZF gene, ThPOK, is important for the phenotype of the PLZF-expressing γδ T cells. Most importantly, TCR signal strength and expression of inhibitor of differentiation gene 3 control the frequency of PLZF-expressing γδ T cells. This study defines the factors that control the propensity of the immune system to produce potentially disease-causing T cell subsets.

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JO - Journal of Immunology

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Development of promyelocytic zinc finger and ThPOK-expressing innate γδ T cells is controlled by strength of TCR signaling and Id3

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