The inflammaging microenvironment induces dysfunctional rewiring of Tfh cell differentiation
Cody S. Nelson, Manuel A. Podestà, Maya G. Gempler, Jeong-Mi Lee, Cole J. Batty, Peterson G. Mathenge, Asra Sainju, Matthew R. Chang, Hanzhong Ke, Pragya Chandrakar, Elsa Bechu, Sierra Richardson, Cecilia B. Cavazzoni, Stefan G. Tullius, Reza Abdi, Musie Ghebremichael, Marcia C. Haigis, Wayne A. Marasco, Peter T. Sage
Cody S. Nelson, Manuel A. Podestà, Maya G. Gempler, Jeong-Mi Lee, Cole J. Batty, Peterson G. Mathenge, Asra Sainju, Matthew R. Chang, Hanzhong Ke, Pragya Chandrakar, Elsa Bechu, Sierra Richardson, Cecilia B. Cavazzoni, Stefan G. Tullius, Reza Abdi, Musie Ghebremichael, Marcia C. Haigis, Wayne A. Marasco, Peter T. Sage
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Research Article Aging Immunology

The inflammaging microenvironment induces dysfunctional rewiring of Tfh cell differentiation

Abstract

Humoral immunity is orchestrated by follicular helper T (Tfh) cells, which promote cognate B cells to produce high-affinity, protective antibodies. In aged individuals, humoral immunity after vaccination is diminished despite the presence of Tfh cells, suggesting defects after initial Tfh cell formation. In this study, we utilized both murine and human systems to investigate how aging alters Tfh cell differentiation after influenza vaccination. We found that young Tfh cells underwent progressive differentiation after influenza vaccination, culminating in clonal expansion of effector-like cells in both draining lymph nodes and blood. In aging, early stages of Tfh cell development occurred normally. However, aging rewired the later stages of development in Tfh cells, resulting in a transcriptional program reflective of cellular senescence, sustained pro-inflammatory cytokine production, and metabolic reprogramming. We investigated the extent to which this rewiring of aged Tfh cells is due to the age-associated inflammatory (“inflammaging”) microenvironment and found that this setting was sufficient to both block the transition of Tfh cells to a post-effector resting state and skew Tfh cells toward the age-rewired state. Together, these data suggest that aging dampens humoral immunity by cytokine-mediated rewiring of late effector Tfh cell differentiation into an activated, yet less functional, cellular state.

Authors

Cody S. Nelson, Manuel A. Podestà, Maya G. Gempler, Jeong-Mi Lee, Cole J. Batty, Peterson G. Mathenge, Asra Sainju, Matthew R. Chang, Hanzhong Ke, Pragya Chandrakar, Elsa Bechu, Sierra Richardson, Cecilia B. Cavazzoni, Stefan G. Tullius, Reza Abdi, Musie Ghebremichael, Marcia C. Haigis, Wayne A. Marasco, Peter T. Sage

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Figure 3

Clonal origins of age-rewired Tfh cells in mice.

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Clonal origins of age-rewired Tfh cells in mice. (A and B) UMAP of n = 7...
(A and B) UMAP of n = 7,360 blood follicular T cells by unsupervised clustering (A) and Monocle3 pseudotime trajectories (B), with root nodes set for progenitor clusters 0 and 3. Black ribbon indicates projected path of differentiation from progenitor population. (C) Pseudotime values per cluster with black dot representing median. (D) Gene expression values of indicated genes organized by ascending pseudotime values. (E) Schematic of progressive differentiation in Tfh cells from young or aged mice with cluster annotation. (F) Clonal sharing (based on TCR sequence) including absolute number of shared clones between clusters (left). (G) Circos plot of clonal sharing of expanded Tfh clones (shared by >2 individual cells). (H) (Left) Top 25 expanded clones in individual clusters 2, 4, and 8, with connecting lines indicating shared clones. (Right) Clonal expansion per cluster (<0.01% “rare,” 0.01%–0.1% “small,” 0.1%–1% “medium,” 1%–5% “large,” and >5% “hyperexpanded”).