Multiplexed single-cell analysis reveals prognostic and nonprognostic T cell types in human colorectal cancer

Masuda, Kazuya; Kornberg, Adam; Miller, Jonathan; Lin, Sijie; Suek, Nathan; Botella, Theo; Secener, Kerim; Baccarella, Alyssa; Liu, Cheng; Ingham, Matthew; Rosario, Vilma; Al-Mazrou, Ahmed M.; Lee-Kong, Steven A.; Kiran, Ravi P.; Stoeckius, Marlon; Smibert, Peter; Portillo, Armando Del; Oberstein, Paul E.; Sims, Peter A.; Yan, Kelley S.; Han, Arnold

doi:10.1172/jci.insight.154646

Cited by 42 publications

(29 citation statements)

References 73 publications

(81 reference statements)

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“…To design TCRs to target the CEA 571-579 peptide restricted to the HLA-A2 (MHC), TCR clonotypes were identified utilizing the single cell RNA V(D)J sequenced T cells resected from colorectal tumors of 16 CRC patients (21). This technique identifies TCR clonotypes by matching the amino acids from the CDR3 regions of the and β chain of the TCR (18)(19)(20)(21). First, T cells were identified by the expression of CD3D and CD8A (and the absence of CD4 expression), as only CD8+ T cells can bind to the HLA-A2 (MHC).…”

Section: Resultsmentioning

confidence: 99%

“…T lymphocyte single cell RNA-Seq data was made available to us from the Han group and has been previously published (20,46). Raw data was first put through a quality control process to exclude cells with less than 200 unique genes, more than 7,500 unique genes, and/or more than 10% mitochondrial gene expression.…”

Section: Methodsmentioning

confidence: 99%

“…Addressing the second challenge has been difficult as the identification of patientspecific TCR repertoires has involved methods that are low-throughput or limited to a single chain (15)(16)(17). However, recent breakthroughs in single-cell sequencing allow determination of the CDR3 regions of the and β chain of the TCR in a highthroughput manner (18)(19)(20)(21). This technological breakthrough facilitates an unprecedented exploration of the vast TCR information space and allows the scientific community to refocus attention on fundamental questions related to recombination, maturation, and intersecting diversity of patient-specific TCR repertoires.…”

Section: Introductionmentioning

confidence: 99%

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Automated protein-protein structure prediction of the T cell receptor-peptide major histocompatibility complex

Rollins

Curtis

Faller

et al. 2022

Preprint

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T Cell Receptor (TCR) recognition of a peptide-major histocompatibility complex (pMHC) is a crucial component of the adaptive immune response. The identification of therapeutically relevant TCR-pMHC pairs is a significant bottleneck in the implementation of TCR-based immunotherapies but may be augmented by computational methodologies. The ability to computationally design TCRs to target a specific pMHC will require an automated integration of next-generation sequencing, protein-protein structure prediction, molecular dynamics (MD), and TCR ranking. We present a generic pipeline to evaluate patient-specific, sequence-based TCRs to a target pMHC. Using the three most frequently expressed TCRs from 16 colorectal cancer patients, we predicted the protein-protein structure of the TCRs to the target CEA peptide-MHC using Modeller and ColabFold. Then, these TCR-pMHC structures were compared by performing an automated molecular dynamics equilibration. ColabFold generates starting configurations that require, on average, a ~2.5X reduction in simulation time to equilibrate TCR-pMHC structures compared to Modeller. In addition, the structural differences between Modeller and ColabFold are demonstrated by an increase in root mean square deviation (~0.20 nm) between clusters of equilibrated configurations, which can impact the number of hydrogen bonds and Lennard-Jones contacts between the TCR and pMHC. Finally, we identify a TCR ranking criteria that may be used to prioritize TCRs for evaluation of in vitro immunogenicity.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Automated protein-protein structure prediction of the T cell receptor-peptide major histocompatibility complex

Rollins

Curtis

Faller

et al. 2022

Preprint

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“…Treatment of a CD40activating antibody could expand Th1-like and CD8 + memory T cells in colon cancer (Zhang et al, 2020a). Furthermore, the scRNA-seq analysis of 37,931 T cells from 16 CRC patients suggests the phenotypically and functionally distinguishable CD4 + and CD8 + effector T cell types are associated with clinical outcomes (Masuda et al, 2022). The GZMK + /KLRG1 + cytotoxic CD8 + T cells with a less dysfunctional phenotype were enriched in CRC patients with good outcomes.…”

Section: The Role Of the Immune System In Crc Therapeutic Outcomesmentioning

confidence: 99%

Intestinal cellular heterogeneity and disease development revealed by single-cell technology

Wang

Song

et al. 2022

Cell Regen

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The intestinal epithelium is responsible for food digestion and nutrient absorption and plays a critical role in hormone secretion, microorganism defense, and immune response. These functions depend on the integral single-layered intestinal epithelium, which shows diversified cell constitution and rapid self-renewal and presents powerful regeneration plasticity after injury. Derailment of homeostasis of the intestine epithelium leads to the development of diseases, most commonly including enteritis and colorectal cancer. Therefore, it is important to understand the cellular characterization of the intestinal epithelium at the molecular level and the mechanisms underlying its homeostatic maintenance. Single-cell technologies allow us to gain molecular insights at the single-cell level. In this review, we summarize the single-cell RNA sequencing applications to understand intestinal cell characteristics, spatiotemporal evolution, and intestinal disease development.

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“…tumor cytotoxicity 39 . Besides, the results of other cell subpopulations were consistent with previous studies (Figure 3C).…”

Section: Prioritizing Prognostic-associated Subpopulations Based On C...mentioning

confidence: 99%

Prioritizing prognostic-associated subpopulations and individualized recurrence risk signatures from single-cell transcriptomes of colorectal cancer

Tong

Lin

Yang³

et al. 2022

Preprint

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Colorectal cancer (CRC) is one of the most common gastrointestinal malignancies. There are few recurrence risk signatures for CRC patients. Single-cell RNA-sequencing (scRNA-seq) provides a high resolution platform for prognostic signature detection. However, scRNA-seq is not practical in large cohorts due to its high cost and most single-cell experiments lack clinical phenotype information. Few studies have been reported to use external bulk transcriptome with survival time to guide the detection of key cell subtypes in scRNA-seq data. We proposed a data analysis framework to prioritize prognostic-associated subpopulations based on relative expression orderings (REOs). Cell type specific gene pairs (C-GPs) were identified to evaluate prognostic value for each cell type. We found REOs-based signatures could accurately classify most cell subtypes. C-GPs achieves higher precision compared with four current methods. Moreover, we developed single-cell gene pair signatures to predict recurrence risk for patients individually. Fibro_SGK1 cells and IgA+ IGLC2+ B cells were novel prognostic-associated subpopulations. A user-friendly toolkit, scRankXMBD (https://github.com/xmuyulab/scRank-XMBD), was developed to enable implementation of this framework. Our work facilitate the application of the rank-based method in scRNA-seq data for prognostic biomarker discovery and precision oncology.

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Multiplexed single-cell analysis reveals prognostic and nonprognostic T cell types in human colorectal cancer

Cited by 42 publications

References 73 publications

Automated protein-protein structure prediction of the T cell receptor-peptide major histocompatibility complex

Automated protein-protein structure prediction of the T cell receptor-peptide major histocompatibility complex

Intestinal cellular heterogeneity and disease development revealed by single-cell technology

Prioritizing prognostic-associated subpopulations and individualized recurrence risk signatures from single-cell transcriptomes of colorectal cancer

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