Plasmonic hot electron transport drives nano-localized chemistry

In this study, the cytokine-producing profile of progenitor T cells (pro-T cells) was determined. During screening of a complementary DNA library generated from activated mouse pro-T cells, a cytokine designated lymphotactin was discovered. Lymphotactin is similar to members of both the Cys-Cys and Cys-X-Cys chemokine families but lacks two of the four cysteine residues that are characteristic of the chemokines. Lymphotactin is also expressed in activated CD8+ T cells and CD4-CD8- T cell receptor alpha beta + thymocytes. It has chemotactic activity for lymphocytes but not for monocytes or neutrophils. The gene encoding lymphotactin maps to chromosome one. Taken together, these observations suggest that lymphotactin represents a novel addition to the chemokine superfamily.

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Mouse IL-17: A Cytokine Preferentially Expressed by αβTCR+CD4—CD8— T Cells

Kennedy¹,

Rossi²,

Zurawski³

et al. 1996

Journal of Interferon & Cytokine Research

129

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A novel cytokine originally designated murine CTLA-8 was described as a cDNA isolated from an activated T cell hybridoma produced by fusing a mouse cytotoxic T cell clone and a rat T lymphoma. This cDNA, which contains mRNA instability sequences characteristic of many cytokines, encoded a putative secreted protein that was homologous to the ORF13 gene of Herpesvirus saimiri. The human homolog to this molecule has recently been identified as the proinflammatory cytokine IL-17. We describe the isolation of a cDNA encoding mouse IL-17 from a cDNA library generated from alpha beta TCR + CD4-CD8- thymocytes using a subtraction technique that enriched for activation specific genes. This cDNA shares 87.3% amino acid identity to the previously described murine CTLA-8. Comparison of murine CTLA-8 to a cDNA we isolated from activated rat splenocytes revealed that murine CTLA-8 is, in fact, the rat homolog of IL-17. Mouse IL-17 mRNA is specifically expressed by activated alpha beta TCR + CD4-CD8- T cells, a small subset with a potentially important role in immune regulation. Mouse, rat, and human IL-17 can induce IL-6 secretion in mouse stromal cells, indicating that all homologs can recognize the mouse receptor.

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A molecular analysis of NKT cells: identification of a class-I restricted T cell-associated molecule (CRTAM)

Kennedy

Vicari

Saylor

et al. 2000

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Analysis of homozygous mutant chimeric mice: deletion of the immunoglobulin heavy-chain joining region blocks B-cell development and antibody production.

Jakobovits

Vergara

Kennedy

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

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Using a recently described method for efficiently deriving homozygous targeted alleles in embryonic stem cells, we produced chimeric mice whose tissues were derived partially from embryonic stem cells bearing homozygous deletion of the mouse immunoglobulin heavy-chain joining (JH) region. Characterization of these chimeric mice indicated that homozygous JH deletion leads to arrest of B-cell development at an early stage, resulting in a total lack of peripheral B cells and serum IgM. These results were confirmed in mice containing the homozygous JH deletion in their germ line. This novel B-cell-deficient mouse strain provides a tool for studying the recombination and expression of exogenous immunoglobulin genes introduced into the mouse germ line.

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A developmental pathway involving four phenotypically and functionally distinct subsets of CD3-CD4-CD8- triple-negative adult mouse thymocytes defined by CD44 and CD25 expression.

Godfrey¹,

Kennedy²,

Suda³

et al. 1993

693

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We have subdivided mouse CD4-CD8-CD3- triple-negative (TN) thymocytes into four subsets based upon expression of CD44 and CD25, including CD44+CD25-, CD44+CD25+, CD44-CD25+ and CD44-CD25-. Characterization of these cells revealed several features distinct to each subset, in particular the expression of high levels of c-kit (the receptor for stem cell factor) by CD44+CD25-TN and CD44+CD25+TN but not by CD44-CD25+TN and CD44-CD25-TN. The CD44+CD25+TN subset also included the IL-7 and stem cell factor-responsive cells, whereas only minimal responsiveness was observed by the CD44- populations. These subsets also showed differential cytokine production potential (CD44+CD25- > CD44+CD25+ > CD44-CD25+ > CD44-CD25-) after stimulation with calcium ionophore, PMA and IL-1. The repopulation potential of these subsets in 2-deoxyguanosine-treated fetal thymic lobes supports the following maturation sequence: CD44+CD25- -->CD44+CD25+ -->CD44-CD25+ -->CD44-CD25-. Furthermore, the sequence of progression from CD44+CD25+ to CD44-CD25+ cells was confirmed by their TCR beta-chain gene configuration. The former population exhibits germ-line TCR beta-chain configuration, whereas the latter subset shows a rearranged pattern.

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Jacqueline Kennedy

Lymphotactin: a Cytokine that Represents a New Class of Chemokine

Mouse IL-17: A Cytokine Preferentially Expressed by αβTCR+CD4—CD8— T Cells

A molecular analysis of NKT cells: identification of a class-I restricted T cell-associated molecule (CRTAM)

Analysis of homozygous mutant chimeric mice: deletion of the immunoglobulin heavy-chain joining region blocks B-cell development and antibody production.

A developmental pathway involving four phenotypically and functionally distinct subsets of CD3-CD4-CD8- triple-negative adult mouse thymocytes defined by CD44 and CD25 expression.

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