A clinically meaningful metric of immune age derived from high-dimensional longitudinal monitoring

Alpert, Ayelet; Pickman, Yishai; Maecker, Holden; Rosenberg-Hasson, Yael; Ji, Xuhuai; Gaujoux, Renaud; Rabani, Hadas; Starosvetsky, Elina; Kveler, Ksenya; Schaffert, Steven; Furman, David; Caspi, Oren; Rosenschein, Uri; Khatri, Purvesh; Dekker, Cornelia L.; Maecker, Holden T.; Davis, Mark M.; Shen-Orr, Shai S.

doi:10.1038/s41591-019-0381-y

Cited by 343 publications

(375 citation statements)

References 39 publications

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“…We found strong enrichment of the signatures of youth and aging in the young and elderly adults, respectively (Figure 6A). The signature of youth had gene ontology terms for RNA metabolism whereas the signature of aging had terms for fatty acid metabolism and cytoskeletal regulation (Supplemental Figure 6B), in agreement with other signatures of aging (28).To further validate these signatures, we identified several published studies (13,(50)(51)(52) that generated whole-blood transcriptional profiles on adults under age 40 or over age 65 ( Supplemental Table 8). From these data, we performed differential expression analysis of young compared to elderly in multiple geographically distinct studies and again found robust enrichment for these signatures in the external datasets ( Figure 6B, Supplemental Figure 6C).…”

supporting

confidence: 57%

“…To further validate these signatures, we identified several published studies (13,(50)(51)(52) that generated whole-blood transcriptional profiles on adults under age 40 or over age 65 ( Supplemental Table 8). From these data, we performed differential expression analysis of young compared to elderly in multiple geographically distinct studies and again found robust enrichment for these signatures in the external datasets ( Figure 6B, Supplemental Figure 6C).…”

Section: Age-related Differences Preferentially Revealed By Cd4 T Celmentioning

confidence: 99%

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Vaccine-induced ICOS+CD38+ cTfh are sensitive biosensors of age-related changes in inflammatory pathways

Herati

Silva

Vella

et al. 2019

Preprint

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Humoral immune responses are dysregulated with aging but details remain incompletely understood. In particular, little is known about the effects of aging on T follicular helper (Tfh) CD4 cells, the subset that provides critical help to B cells for effective humoral immunity. We previously demonstrated that influenza vaccination increases a circulating Tfh (cTfh) subset that expresses ICOS and CD38, contains influenza-specific memory cells, and is correlated with antibody responses. To directly study the effects of aging on the cTfh response, we performed transcriptional profiling and cellular analysis before and after influenza vaccination in young and elderly adults. Several key differences in cTfh responses were revealed in the elderly. First, whole blood transcriptional profiling defined cross-validated genesets of youth versus aging and these genesets were, compared to other T cells, preferentially enriched in ICOS+CD38+ cTfh from young and elderly subjects, respectively, following vaccination. Second, vaccine-induced ICOS+CD38+ cTfh from the elderly were enriched for transcriptional signatures of inflammation including TNF-NFkB pathway activation. Indeed, we reveal a paradoxical positive effect of TNF signaling on Tfh providing help to B cells linked to survival circuits that may explain detrimental effects of TNF blockade on vaccine responses. Finally, vaccine-induced ICOS+CD38+ cTfh displayed strong enrichment for signatures of underlying age-associated biological changes.Thus, these data reveal key biological changes in cTfh during aging and also demonstrate the sensitivity of vaccine-induced cTfh to underlying changes in host physiology. This latter observation suggests that vaccine-induced cTfh could function as sensitive biosensors of underlying inflammatory and/or overall immune health. Main Text:Influenza vaccination induces strain-specific neutralizing antibodies in healthy adults, but this process is impaired with aging (1-4). Moreover, immunological aging, that may or may not be directly linked to chronological aging, is also associated with increased morbidity and mortality from infectious diseases (5,6). Studies of immunological aging and vaccines have identified mechanisms including alterations at the subcellular (7, 8), cellular (9, 10), and systems levels (11)(12)(13)(14) that lead to altered vaccine responses. Vaccination strategies that can effectively combat age-associated immune dysfunction are of great interest for rational vaccine design. Moreover, identifying strategies to define critical characteristics of overall immune fitness during aging would be of considerable utility for selecting appropriate immunological and other interventions for disease.The production of class-switched, affinity-matured antibody by B cells is dependent on help from T follicular helper (Tfh) cells in germinal centers (GC) in lymphoid tissues (15), but few studies have evaluated the effects of aging on the GC reaction and GC dependent cellular responses in humans. Suboptimal vaccine responses with aging ...

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supporting

confidence: 57%

Section: Age-related Differences Preferentially Revealed By Cd4 T Celmentioning

confidence: 99%

Vaccine-induced ICOS+CD38+ cTfh are sensitive biosensors of age-related changes in inflammatory pathways

Herati

Silva

Vella

et al. 2019

Preprint

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“…From these observations, it has been postulated that inflammation plays a critical role in regulating physiological aging (Franceschi and Campisi, 2014;Furman et al, 2017b). Furthermore, the well-established nine hallmarks of aging (Lopez-Otin et al, 2013); (1) genomic instability, (2) shortening telomere length, (3) epigenetic modifications, (4) loss of proteostasis, (5) deregulated nutrient sensing, (6) mitochondrial dysfunction, (7) cellular senescence, (8) stem cell exhaustion, and (9) altered intracellular communication, have all been shown to be caused, at least in part, by sustained systemic inflammation (Cavadas et al, 2016;Efeyan et al, 2015;Grivennikov et al, 2010;Hunter et al, 2007;Jurk et al, 2014;Lasry and Ben-Neriah, 2015;Nathan and Cunningham-Bussel, 2013;Oh et al, 2014;Thevaranjan et al, 2017;Alpert et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

An Inflammatory Clock Predicts Multi-morbidity, Immunosenescence and Cardiovascular Aging in Humans

Sayed

Gao

Tibshirani

et al. 2019

Preprint

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While many diseases of aging have been linked to the immunological system, immune metrics with which to identify the most at-risk individuals are lacking. Here, we studied the blood immunome of 1001 individuals age 8-96 and derived an inflammatory clock of aging (iAge), which tracked with multi-morbidity and immunosenescence. In centenarians, iAge was on average, 40 years lower than their corresponding chronological age. The strongest contributor to this metric was the chemokine CXCL9, which was involved in cardiac aging, affected vascular function, and down-regulated Sirtuin-3, a longevity-associated molecule. Thus, our results identify an important link between inflammatory molecules and pathways known to govern lifespan.

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“…Finally, by longitudinal monitoring of healthy individuals we are learning how newborn immune systems are shaped early in life 9 , and how immunological changes associated with aging manifest itself and affect disease risks in the elderly 10 .…”

Section: Systems Immunology Involves Simultaneous Analyses Of All Immmentioning

confidence: 99%

Systems-level immunomonitoring using self-sampled capillary blood

Lakshmikanth

Mikes

et al. 2019

Preprint

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Comprehensive profiling of the human immune system in patients with cancer, autoimmune disease and during infections are providing valuable information that help us understand disease states and discriminate productive from inefficient immune responses and identify possible targets for immune modulation. Recent technical advances now allow for all immune cell populations and hundreds of plasma proteins to be detected using small volume blood samples. To democratize such systems-immunological analyses, further simplified blood sampling and preservation will be important. Here we describe that blood obtained via a nearly painless self-sampling device of 100 microliter of capillary blood that is preserved and frozen, can simplify systems-level immunomonitoring studies.

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A clinically meaningful metric of immune age derived from high-dimensional longitudinal monitoring

Cited by 343 publications

References 39 publications

Vaccine-induced ICOS+CD38+ cTfh are sensitive biosensors of age-related changes in inflammatory pathways

Vaccine-induced ICOS+CD38+ cTfh are sensitive biosensors of age-related changes in inflammatory pathways

An Inflammatory Clock Predicts Multi-morbidity, Immunosenescence and Cardiovascular Aging in Humans

Systems-level immunomonitoring using self-sampled capillary blood

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