Jeremy P. Snook scite author profile

CD4 T cell responses are composed of heterogeneous T cell receptor (TCR) signals that influence the acquisition of effector and memory characteristics. We sought to define early TCR-dependent activation events that control T cell differentiation. A polyclonal panel of TCRs specific for the same viral antigen demonstrated substantial variability in TCR signal strength, expression of CD25, and activation of nuclear factor of activated T cells and nuclear factor κB. After viral infection, strong TCR signals corresponded to T helper cell (T1) differentiation, whereas T follicular helper cell and memory T cell differentiation were most efficient when TCR signals were comparatively lower. We observed substantial heterogeneity in TCR-dependent CD25 expression in vivo, and the vast majority of CD4 memory T cells were derived from CD25 effector cells that displayed decreased TCR signaling in vivo. Nevertheless, memory T cells derived from either CD25 or CD25 effector cells responded vigorously to rechallenge, indicating that, although early clonal differences in CD25 expression predicted memory T cell numbers, they did not predict memory T cell function on a per cell basis. Gene transcription analysis demonstrated expression clustering based on CD25 expression and enrichment of transcripts associated with enhanced T follicular helper cell and memory development within CD25 effector cells. Direct enhancement of TCR signaling via knockdown of Src homology region 2 domain-containing phosphatase 1, a tyrosine phosphatase that suppresses early TCR signaling events, favored the differentiation of T1 effector and memory cells. We conclude that strong TCR signals during early T cell activation favor terminal T1 differentiation over long-term T1 and T follicular helper cell memory responses.

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Single-cell lineage mapping of a diverse virus-specific naive CD4 T cell repertoire

Khatun

Kasmani

Zander

et al. 2020

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Tracking how individual naive T cells from a natural TCR repertoire clonally expand, differentiate, and make lineage choices in response to an infection has not previously been possible. Here, using single-cell sequencing technology to identify clones by their unique TCR sequences, we were able to trace the clonal expansion, differentiation trajectory, and lineage commitment of individual virus-specific CD4 T cells during an acute lymphocytic choriomeningitis virus (LCMV) infection. Notably, we found previously unappreciated clonal diversity and cellular heterogeneity among virus-specific helper T cells. Interestingly, although most naive CD4 T cells gave rise to multiple lineages at the clonal level, ∼28% of naive cells exhibited a preferred lineage choice toward either Th1 or TFH cells. Mechanistically, we found that TCR structure, in particular the CDR3 motif of the TCR α chain, skewed lineage decisions toward the TFH cell fate.

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Oct1 and OCA-B are selectively required for CD4 memory T cell function

Shakya

Goren

Shalek

et al. 2015

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Bystander T Cells: A Balancing Act of Friends and Foes

Whiteside

Snook

Williams

et al. 2018

Trends in Immunology

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T cell responses are essential for appropriate protection against pathogens. T cell immunity is achieved through the ability to discriminate between foreign and selfmolecules, which relies heavily on stringent T cell receptor (TCR) specificity. Recently, bystander activated T lymphocytes, specific for unrelated epitopes during an antigen-specific response, have been implicated in various diseases. Numerous infection models have challenged the classic dogma of T cell activation as solely dependent on TCR and major histocompatibility complex (MHC) interactions, indicating an unappreciated role for pathogen-associated receptors on T cells. Here, we discuss specific roles of bystander activated T cells in pathogenesis, shedding light on the ability of these cells to modulate disease severity independently from TCR recognition.

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Oct1 and OCA-B are selectively required for CD4 memory T cell function

Shakya¹,

Goren²,

Shalek³

et al. 2015

J Cell Biol

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Jeremy P. Snook

TCR signal strength controls the differentiation of CD4 ⁺ effector and memory T cells

Single-cell lineage mapping of a diverse virus-specific naive CD4 T cell repertoire

Oct1 and OCA-B are selectively required for CD4 memory T cell function

Bystander T Cells: A Balancing Act of Friends and Foes

Oct1 and OCA-B are selectively required for CD4 memory T cell function

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Resources

About

Jeremy P. Snook

TCR signal strength controls the differentiation of CD4 + effector and memory T cells

Single-cell lineage mapping of a diverse virus-specific naive CD4 T cell repertoire

Oct1 and OCA-B are selectively required for CD4 memory T cell function

Bystander T Cells: A Balancing Act of Friends and Foes

Oct1 and OCA-B are selectively required for CD4 memory T cell function

Contact Info

Product

Resources

About

TCR signal strength controls the differentiation of CD4 ⁺ effector and memory T cells