Age-Associated Decrease in TLR Function in Primary Human Dendritic Cells Predicts Influenza Vaccine Response

Panda, Alexander; Qian, Feng; Mohanty, Subhasis; Duin, David van; Newman, Frances K.; Zhang, Lin; Chen, Shu; Towle, Virginia; Belshe, Robert B.; Fikrig, Erol; Allore, Heather G.; Montgomery, Ruth R.; Shaw, Albert C.

doi:10.4049/jimmunol.0901022

Cited by 482 publications

(457 citation statements)

References 42 publications

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“…Nevertheless, recent studies have shown that TLR's role in regulating the adaptive responses can be harnessed to boost immunogenicity of influenza vaccines (e.g., TLR9 or TLR7 ligands as adjuvants). This may be particularly useful in the elderly and the immunologically naïve vaccinees 4, 33, 34, 35, 36, 37, 38, 39, 40. Our data in natural influenza provide additional support to this new vaccination approach.…”

Section: Discussionmentioning

confidence: 64%

“…Factors determining TLR expression in an individual should be further studied 3, 42. We report that in some old patients (>65 years of age, P = 0·025), despite successful cytokine and ligand stimulation studies, the number of DCs in circulation was too few and signals too weak (due to aging and/or site “migration”) to allow full‐range TLR analysis 6, 39. The conclusions were unlikely affected, however, as these were balanced between the age‐matched cases/controls ( P = 0·768).…”

Section: Discussionmentioning

confidence: 99%

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Role of human Toll‐like receptors in naturally occurring influenza A infections

Lee

Wong

Hui

et al. 2013

Influenza Resp Viruses

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BackgroundWe investigated the roles of Toll‐like receptors (TLRs) in naturally occurring influenza.MethodsA prospective, case – control study was conducted. Adults hospitalized with virologically confirmed influenza A infections (onset <48 hours, before treatment) were compared with age‐/gender‐matched controls. TLRs (2, 3, 4, 7, 8, 9) expression in monocytes and dendritic cells (DCs – total, myeloid, plasmacytoid) was quantitated using flow cytometry. Gene expression of RLRs (RIG‐1, MDA‐5) was evaluated using real‐time PCR. Concomitant signaling molecules expression, plasma cytokine/chemokine concentrations, and respiratory tract viral loads were measured. PBMCs were cultured and stimulated ex vivo with TLR‐specific ligands for cytokine responses.ResultsForty two patients with influenza (24 A/H3N2, 18 A/H1N1pdm09) and 20 controls were studied. Patients' mean age was 68 ± 16 years; 81% had respiratory/cardiovascular complications. There were increased cellular expressions of TLR9, TLR8, TLR3, and TLR7 during influenza; TLR2 and TLR4 were suppressed. Results were similar for both virus strains. Higher TLR expression levels at presentation significantly correlated with lower viral loads (Spearman's rho: −0·46 to −0·69 for TLR9, TLR8, and TLR3; P‐values <0·05). Multivariate regression models (adjusted for age, comorbidity, disease severity, time from onset) confirmed their independent associations. Increased signaling molecules (phospho‐MAPKs, IκB) and inflammatory cytokines (IL‐6, sTNFR‐1, CCL2/MCP‐1; CXCL10/IP‐10, IFN‐γ) correlated with increased TLR expression. RLRs were upregulated simultaneously. PBMCs of patients with influenza showed significant, dynamic changes in their cytokine responses upon TLR stimulation, compared with controls.ConclusionsOur results suggest that TLRs play an important role in early, innate viral inhibition in naturally occurring influenza. Inflammatory cytokine responses are concomitantly induced. These findings support investigation of TLR targeting as a novel intervention approach for prophylaxis against influenza.

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Section: Discussionmentioning

confidence: 64%

Section: Discussionmentioning

confidence: 99%

Role of human Toll‐like receptors in naturally occurring influenza A infections

Lee

Wong

Hui

et al. 2013

Influenza Resp Viruses

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“…Notable changes contributing to immunosenescence include, among others, decreased proliferation of lymphocytes, reduced T-cell receptor repertoire, and defects in antibody production (1,2). This phenomenon contributes to an age-related increase in susceptibility to viral and bacterial infections and decreased response to vaccination (3)(4)(5).…”

mentioning

confidence: 99%

Phylogenetic analysis of the human antibody repertoire reveals quantitative signatures of immune senescence and aging

Bourcy

Angel

Vollmers

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

118

123

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The elderly have reduced humoral immunity, as manifested by increased susceptibility to infections and impaired vaccine responses. To investigate the effects of aging on B-cell receptor (BCR) repertoire evolution during an immunological challenge, we used a phylogenetic distance metric to analyze Ig heavy-chain transcript sequences in both young and elderly individuals before and after influenza vaccination. We determined that BCR repertoires become increasingly specialized over a span of decades, but less plastic. In 50% of the elderly individuals, a large space in the repertoire was occupied by a small number of recall lineages that did not decline during vaccine response and contained hypermutated IgD + B cells. Relative to their younger counterparts, older subjects demonstrated a contracted naive repertoire and diminished intralineage diversification, signifying a reduced substrate for mounting novel responses and decreased fine-tuning of BCR specificities by somatic hypermutation. Furthermore, a larger proportion of the repertoire exhibited premature stop codons in some elderly subjects, indicating that aging may negatively affect the ability of B cells to discriminate between functional and nonfunctional receptors. Finally, we observed a decreased incidence of radical mutations compared with conservative mutations in elderly subjects' vaccine responses, which suggests that accumulating original antigenic sin may be limiting the accessible space for paratope evolution. Our findings shed light on the complex interplay of environmental and gerontological factors affecting immune senescence, and provide direct molecular characterization of the effects of senescence on the immune repertoire.aging | antibody repertoire | influenza vaccine | CMV | UniFrac T he deterioration of immune function with age, a process referred to as immunosenescence, is well recognized. Notable changes contributing to immunosenescence include, among others, decreased proliferation of lymphocytes, reduced T-cell receptor repertoire, and defects in antibody production (1, 2). This phenomenon contributes to an age-related increase in susceptibility to viral and bacterial infections and decreased response to vaccination (3-5). Indeed, individuals over the age of 65 y are less than half as protected by standard influenza vaccines as younger individuals (6), and pneumonia and influenza represent the fourth most common cause of death among aging individuals (4).Antibody-mediated immunity is the result of an evolutionary arms race between the pathogens to which an individual is exposed and antibody-producing B cells. A tremendous diversity of potential antibody affinities is generated by the mechanisms of V(D)J recombination, random junctional insertions/deletions, and somatic hypermutation (7). Preferential proliferation of activated B cells upon encounter with a cognate antigen then exerts a selective pressure for B-cell receptors (BCRs) with a high binding affinity to the antigen (7). The clonal history of B cells circulating in the blood c...

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“…In the elderly, antibody responses to vaccines are slower and not as strong as those in younger people, and T-cell subpopulations are not very responsive to vaccines, which may impair the ability to achieve protective immunity after vaccination. 20,21 At an individual level the assessment of safety may be different in na€ ıve versus primed subjects: for example, pre-existing immunity to a specific antigen may cause lower or higher reactogenicity on re-exposure. The safety evaluation will also be influenced by whether the individual is immune-compromised or has underlying morbidities compared to healthy individuals, and by their physiological status: for example, during pregnancy the maternal immune system is altered to tolerate the semi-allogeneic fetus.…”

Section: Vaccines Containing Adjuvants: Key Features That Guide Safetmentioning

confidence: 99%

Safety assessment of adjuvanted vaccines: Methodological considerations

Silva¹,

Pasquale²,

Yarzábal³

et al. 2015

Human Vaccines & Immunotherapeutics

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Adjuvants mainly interact with the innate immune response and are used to enhance the quantity and quality of the downstream adaptive immune response to vaccine antigens. Establishing the safety of a new adjuvant-antigen combination is achieved through rigorous evaluation that begins in the laboratory, and that continues throughout the vaccine life-cycle. The strategy for the evaluation of safety pre-licensure is guided by the disease profile, vaccine indication, and target population, and it is also influenced by available regulatory guidelines. In order to allow meaningful interpretation of clinical data, clinical program methodology should be optimized and standardized, making best use of all available data sources. Post-licensure safety activities are directed by field experience accumulated pre-and postlicensure clinical trial data and spontaneous adverse event reports. Continued evolution of safety evaluation processes that keep pace with advances in vaccine technology and updated communication of the benefit-risk profile is necessary to maintain public confidence in vaccines.

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Age-Associated Decrease in TLR Function in Primary Human Dendritic Cells Predicts Influenza Vaccine Response

Cited by 482 publications

References 42 publications

Role of human Toll‐like receptors in naturally occurring influenza A infections

Role of human Toll‐like receptors in naturally occurring influenza A infections

Phylogenetic analysis of the human antibody repertoire reveals quantitative signatures of immune senescence and aging

Safety assessment of adjuvanted vaccines: Methodological considerations

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