Enhanced interpretation of immune cell phenotype and function through a rhesus macaque single-cell atlas

Eisa Mahyari; Gregory J. Boggy; G. W. McElfresh; Maanasa Kaza; Sebastian Benjamin; Benjamin Varco-Merth; Sohita Ojha; Shana Feltham; William Goodwin; Candice Nkoy; Derick Duell; Andrea Selseth; Tyler Bennett; Aaron Barber-Axthelm; Jeremy V. Smedley; Caralyn S. Labriola; Michael K. Axthelm; R. Keith Reeves; Afam A. Okoye; Scott G. Hansen; Louis J. Picker; Benjamin N. Bimber

doi:10.1016/j.xgen.2025.100849

Enhanced interpretation of immune cell phenotype and function through a rhesus macaque single-cell atlas

Eisa Mahyari, Gregory J. Boggy, G. W. McElfresh, Maanasa Kaza, Sebastian Benjamin, Benjamin Varco-Merth, Sohita Ojha, Shana Feltham, William Goodwin, Candice Nkoy, Derick Duell, Andrea Selseth, Tyler Bennett, Aaron Barber-Axthelm, Jeremy V. Smedley, Caralyn S. Labriola, Michael K. Axthelm, R. Keith Reeves, Afam A. Okoye, Scott G. HansenLouis J. Picker, Benjamin N. Bimber

Research output: Contribution to journal › Article › peer-review

Abstract

Single-cell RNA sequencing (scRNA-seq) allows cell classification using genome-wide transcriptional state; however, high-dimensional transcriptomic profiles, and the unsupervised analyses employed to interpret them, provide a systematically different view of biology than well-established functional/lineage definitions of immunocytes. Understanding these differences and limits is essential for accurate interpretation of these rich data. We present the Rhesus Immune Reference Atlas (RIRA), the first immune-focused macaque single-cell multi-tissue atlas. We contrasted transcriptional profiles against immune lineages, using surface protein and marker genes as ground truth. While the pattern of clustering can align with cell type, this is not always true. Especially within T and natural killer (NK) cells, many functionally distinct subsets lack defining markers, and strong shared expression programs, such as cytotoxicity, result in systematic intermingling by unsupervised clustering. We identified gene programs with high discriminatory/diagnostic value, including multi-gene signatures that model T/NK cell maturation. Directly measuring these diagnostic programs complements unsupervised analyses.

Original language	English (US)
Article number	100849
Journal	Cell Genomics
Volume	5
Issue number	5
DOIs	https://doi.org/10.1016/j.xgen.2025.100849
State	Published - May 14 2025

Keywords

T cells
immunology
rhesus macaque
single-cell RNA-seq

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology (miscellaneous)
Genetics

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Mahyari, E., Boggy, G. J., McElfresh, G. W., Kaza, M., Benjamin, S., Varco-Merth, B., Ojha, S., Feltham, S., Goodwin, W., Nkoy, C., Duell, D., Selseth, A., Bennett, T., Barber-Axthelm, A., Smedley, J. V., Labriola, C. S., Axthelm, M. K., Reeves, R. K., Okoye, A. A., ... Bimber, B. N. (2025). Enhanced interpretation of immune cell phenotype and function through a rhesus macaque single-cell atlas. Cell Genomics, 5(5), Article 100849. https://doi.org/10.1016/j.xgen.2025.100849

Mahyari, E, Boggy, GJ, McElfresh, GW, Kaza, M, Benjamin, S, Varco-Merth, B, Ojha, S, Feltham, S, Goodwin, W, Nkoy, C, Duell, D, Selseth, A, Bennett, T, Barber-Axthelm, A, Smedley, JV, Labriola, CS , Axthelm, MK, Reeves, RK, Okoye, AA , Hansen, SG , Picker, LJ & Bimber, BN 2025, 'Enhanced interpretation of immune cell phenotype and function through a rhesus macaque single-cell atlas', Cell Genomics, vol. 5, no. 5, 100849. https://doi.org/10.1016/j.xgen.2025.100849

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abstract = "Single-cell RNA sequencing (scRNA-seq) allows cell classification using genome-wide transcriptional state; however, high-dimensional transcriptomic profiles, and the unsupervised analyses employed to interpret them, provide a systematically different view of biology than well-established functional/lineage definitions of immunocytes. Understanding these differences and limits is essential for accurate interpretation of these rich data. We present the Rhesus Immune Reference Atlas (RIRA), the first immune-focused macaque single-cell multi-tissue atlas. We contrasted transcriptional profiles against immune lineages, using surface protein and marker genes as ground truth. While the pattern of clustering can align with cell type, this is not always true. Especially within T and natural killer (NK) cells, many functionally distinct subsets lack defining markers, and strong shared expression programs, such as cytotoxicity, result in systematic intermingling by unsupervised clustering. We identified gene programs with high discriminatory/diagnostic value, including multi-gene signatures that model T/NK cell maturation. Directly measuring these diagnostic programs complements unsupervised analyses.",

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AU - Mahyari, Eisa

AU - Boggy, Gregory J.

AU - McElfresh, G. W.

AU - Kaza, Maanasa

AU - Benjamin, Sebastian

AU - Varco-Merth, Benjamin

AU - Ojha, Sohita

AU - Feltham, Shana

AU - Goodwin, William

AU - Nkoy, Candice

AU - Duell, Derick

AU - Selseth, Andrea

AU - Bennett, Tyler

AU - Barber-Axthelm, Aaron

AU - Smedley, Jeremy V.

AU - Labriola, Caralyn S.

AU - Axthelm, Michael K.

AU - Reeves, R. Keith

AU - Okoye, Afam A.

AU - Hansen, Scott G.

AU - Picker, Louis J.

AU - Bimber, Benjamin N.

PY - 2025/5/14

Y1 - 2025/5/14

N2 - Single-cell RNA sequencing (scRNA-seq) allows cell classification using genome-wide transcriptional state; however, high-dimensional transcriptomic profiles, and the unsupervised analyses employed to interpret them, provide a systematically different view of biology than well-established functional/lineage definitions of immunocytes. Understanding these differences and limits is essential for accurate interpretation of these rich data. We present the Rhesus Immune Reference Atlas (RIRA), the first immune-focused macaque single-cell multi-tissue atlas. We contrasted transcriptional profiles against immune lineages, using surface protein and marker genes as ground truth. While the pattern of clustering can align with cell type, this is not always true. Especially within T and natural killer (NK) cells, many functionally distinct subsets lack defining markers, and strong shared expression programs, such as cytotoxicity, result in systematic intermingling by unsupervised clustering. We identified gene programs with high discriminatory/diagnostic value, including multi-gene signatures that model T/NK cell maturation. Directly measuring these diagnostic programs complements unsupervised analyses.

AB - Single-cell RNA sequencing (scRNA-seq) allows cell classification using genome-wide transcriptional state; however, high-dimensional transcriptomic profiles, and the unsupervised analyses employed to interpret them, provide a systematically different view of biology than well-established functional/lineage definitions of immunocytes. Understanding these differences and limits is essential for accurate interpretation of these rich data. We present the Rhesus Immune Reference Atlas (RIRA), the first immune-focused macaque single-cell multi-tissue atlas. We contrasted transcriptional profiles against immune lineages, using surface protein and marker genes as ground truth. While the pattern of clustering can align with cell type, this is not always true. Especially within T and natural killer (NK) cells, many functionally distinct subsets lack defining markers, and strong shared expression programs, such as cytotoxicity, result in systematic intermingling by unsupervised clustering. We identified gene programs with high discriminatory/diagnostic value, including multi-gene signatures that model T/NK cell maturation. Directly measuring these diagnostic programs complements unsupervised analyses.

KW - T cells

KW - immunology

KW - rhesus macaque

KW - single-cell RNA-seq

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Enhanced interpretation of immune cell phenotype and function through a rhesus macaque single-cell atlas

Abstract

Keywords

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