The Role of Production Frequency in the Sharing of Simian Immunodeficiency Virus-Specific CD8+ TCRs between Macaques

Venturi, Vanessa; Chin, Hui Yee; Price, David A.; Douek, Daniel C.; Davenport, Miles P.

doi:10.4049/jimmunol.181.4.2597

Cited by 34 publications

(56 citation statements)

References 74 publications

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“…Through computer simulation, the authors estimated the relative production frequencies and varieties of production mechanisms for TCR β sequences and found strong correlations with the sharing of both TCR β amino-acid sequences and TCR β nucleotide sequences [38]. The same group further confirmed the role of convergent recombination in driving the sharing of TCR sequences in outbred macaques [39] and humans [40]. By analyzing 6 000 TCR β  sequences that are specific for the immunodominant Mamu-A*01-restricted Tat-SL8/TL8 and Gag-CM9 epitopes of SIV in 20 outbred rhesus macaques, they observed that the spectrum of TCR β sharing was negatively correlated with the minimum number of nucleotide additions required to produce the sequences and strongly positively correlated with the number of observed nucleotide sequences encoding the amino-acid sequences.…”

Section: Convergent Recombinationsupporting

confidence: 51%

“…The available data suggest that convergent recombination [37][38][39][40] and biases during recombination [33,37,41] are the major contributors of TCR sharing in TCR repertoires among individuals. Convergent recombination is the process whereby multiple recombination events 'converge' to produce the same nucleotide sequence and multiple nucleotide sequences "converge" to encode the same amino-acid sequence (Figure 1), which results in different TCR sequences to be generated with differential frequencies during recombination [37][38][39][40].…”

Section: How Does Initial V(d)j Recombination Determine Tcr Sharing?mentioning

confidence: 99%

“…Convergent recombination is the process whereby multiple recombination events 'converge' to produce the same nucleotide sequence and multiple nucleotide sequences "converge" to encode the same amino-acid sequence (Figure 1), which results in different TCR sequences to be generated with differential frequencies during recombination [37][38][39][40]. Recombinatorial biases include biased V/D/J gene usage and combination, bias in the number of nucleotide deletions at the coding ends of V/D/J gene segments, bias in the number of nucleotide additions and bias in base usage at the V-D/ D-J junctions [33,37,[41][42][43].…”

Section: How Does Initial V(d)j Recombination Determine Tcr Sharing?mentioning

confidence: 99%

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Determinants of public T cell responses

et al. 2012

Cell Res

113

112

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Historically, sharing T cell receptors (TCRs) between individuals has been speculated to be impossible, considering the dramatic discrepancy between the potential enormity of the TCR repertoire and the limited number of T cells generated in each individual. However, public T cell response, in which multiple individuals share identical TCRs in responding to a same antigenic epitope, has been extensively observed in a variety of immune responses across many species. Public T cell responses enable individuals within a population to generate similar antigen-specific TCRs against certain ubiquitous pathogens, leading to favorable biological outcomes. However, the relatively concentrated feature of TCR repertoire may limit T cell response in a population to some other pathogens. It could be a great benefit for human health if public T cell responses can be manipulated. Therefore, the mechanistic insight of public TCR generation is important to know. Recently, high-throughput DNA sequencing has revolutionized the study of immune receptor repertoires, which allows a much better understanding of the factors that determine the overlap of TCR repertoire among individuals. Here, we summarize the current knowledge on public T-cell response and discuss future challenges in this field.

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Section: Convergent Recombinationsupporting

confidence: 51%

Section: How Does Initial V(d)j Recombination Determine Tcr Sharing?mentioning

confidence: 99%

Section: How Does Initial V(d)j Recombination Determine Tcr Sharing?mentioning

confidence: 99%

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Determinants of public T cell responses

et al. 2012

Cell Res

113

112

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“…The resulting “repertoire” of distinct TCRs expressed in an individual defines a unique footprint of immune protection. Despite this diversity, a significant overlap in the TCR response of different individuals to a variety of antigens and infections has been observed in humans,2, 3, 4 mice,5, 6, 7 and macaques8 (reviewed in 9, 10). This observation led to the notion of a “public” response shared by all, and a complementary “private” response specific to each individual 5.…”

Section: Introductionmentioning

confidence: 99%

“…Since antigen‐specific TCRs have a restricted set of sequences,11, 12 and since there is no identified analog for T cells of B‐cell affinity maturation, a public response can only arise if the specific responding T cells are independently generated in each individual's T‐cell repertoire. It was proposed7, 8, 9 that these shared sequences can be explained by the biases inherent in the V(D)J recombination process, together with “convergent recombination,” the possibility to generate the same TCR sequence (especially the same CDR3 amino acid sequence) in independent recombination events. In this hypothesis, shared TCRs are simply those that have a higher‐than‐average generation probability and are thus more abundant in the unselected repertoire 13.…”

Section: Introductionmentioning

confidence: 99%

Predicting the spectrum of TCR repertoire sharing with a data‐driven model of recombination

Elhanati

Sethna

Callan

et al. 2018

Immunological Reviews

125

159

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SummaryDespite the extreme diversity of T‐cell repertoires, many identical T‐cell receptor (TCR) sequences are found in a large number of individual mice and humans. These widely shared sequences, often referred to as “public,” have been suggested to be over‐represented due to their potential immune functionality or their ease of generation by V(D)J recombination. Here, we show that even for large cohorts, the observed degree of sharing of TCR sequences between individuals is well predicted by a model accounting for the known quantitative statistical biases in the generation process, together with a simple model of thymic selection. Whether a sequence is shared by many individuals is predicted to depend on the number of queried individuals and the sampling depth, as well as on the sequence itself, in agreement with the data. We introduce the degree of publicness conditional on the queried cohort size and the size of the sampled repertoires. Based on these observations, we propose a public/private sequence classifier, “PUBLIC” (Public Universal Binary Likelihood Inference Classifier), based on the generation probability, which performs very well even for small cohort sizes.

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The Public Face and Private Lives of T Cell Receptor Repertoires

Dash¹

2021

Mathematical, Computational and Experimental T Cell Immunology

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The Role of Production Frequency in the Sharing of Simian Immunodeficiency Virus-Specific CD8+ TCRs between Macaques

Cited by 34 publications

References 74 publications

Determinants of public T cell responses

Determinants of public T cell responses

Predicting the spectrum of TCR repertoire sharing with a data‐driven model of recombination

The Public Face and Private Lives of T Cell Receptor Repertoires

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