Gene Signatures of Influenza Vaccine Responses in Older Adults

Overview

The purpose of this research study is to better understand the immune response to the Adjuvanted Subunit flu vaccine (MF59) and the High Dose flu vaccine (HDFlu) in people 65 years of age and older. The research team will be studying why immune response diminishes as people get older in both men and women. The ultimate goal is to understand how flu immunity develops after vaccination. This information may lead to the development of more effective flu vaccines in the future.

Full Title of Study: “Transcriptomic Signatures of Influenza Vaccine Responses”

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Parallel Assignment
    • Primary Purpose: Basic Science
    • Masking: None (Open Label)
  • Study Primary Completion Date: January 2, 2019

Detailed Description

The overall goal of this proposal is to determine how vaccine type, sex, and gene expression influence both innate and T helper cell immune responses using systems biology and bioinformatics as tools to comprehensively assess the human transcriptome. We will evaluate sex-dependent immune responses to two unique influenza vaccines in a population of older adults; the recently FDA-licensed MF59-adjuvanted influenza subunit vaccine and the high-dose split virion influenza virus vaccine. The influence of sex on immune response to vaccination has been observed across multiple vaccines (including standard dose influenza vaccines, but the mechanisms are unknown, it affects all age groups regardless of hormonal status, and existing studies focus almost exclusively on humoral immune responses. Relatively little is known about the effect of sex on innate and T helper responses following vaccination and we are unaware of any studies evaluating the effect of sex on immune responses to adjuvanted influenza vaccine. The presence of adjuvant (MF59Flu) or higher antigen (Ag) dose leads to greater immunogenicity through mechanisms that have not been fully deciphered and are likely to be different. Further, a direct comparison of innate and T helper immune responses between adjuvanted and high dose influenza vaccines has not been reported. The study design will include 200 generally healthy individuals (ages ≥65) who meet all inclusion criteria. 100 subjects will receive each vaccine with equal sex representation in each subgroup (a factorial design for sex by vaccine type). Subjects will undergo venipuncture for blood samples (~100 mL each, sufficient for the proposed assays) before vaccination and at three timepoints after vaccination (Day 1, Day 8, Day 28). The clinical characterization of our study subjects will include demographic information, height, weight, BMI, waist circumference, medications, and medical conditions that do not meet exclusion criteria (see Protection of Human Subjects). We will also quantify blood leukocyte populations (CBC, WBC differential). Immunosenescence and cytomegalovirus (CMV) infection can affect influenza vaccine-induced immune responses. We will evaluate whether CMV seropositivity or other measures of immunosenescence are associated with immune response and whether they interact with vaccine type/sex. We will monitor/characterize transcriptional changes (mRNA and miRNA) as well as measures of immune function (cytokine secretion, leukocyte surface phenotype, hemagglutination inhibiting antibody titer, and memory B cell ELISPOT) at each time point.

Interventions

  • Drug: Fluad Vaccine
    • FLUAD is an inactivated influenza vaccine indicated for active immunization against influenza. disease caused by influenza virus subtypes A and type B contained in the vaccine. FLUAD is. approved for use in persons 65 years of age and older.
  • Drug: Fluzone High-Dose
    • FLUZONE® HIGH-DOSE vaccine is indicated for people 65 years of age and older to help prevent influenza disease caused by influenza A and B strains contained in the vaccine.

Arms, Groups and Cohorts

  • Active Comparator: Fluad vaccine
    • Subjects receive a single dose of the Fluad influenza vaccine.
  • Active Comparator: Fluzone vaccine
    • Subjects receive a single dose of the Fluzone High-Dose influenza vaccine.

Clinical Trial Outcome Measures

Primary Measures

  • Innate Cell IFNa2a Production
    • Time Frame: Baseline, Day 1
    • Cytokine secretion (interferon alpha 2a) after in vitro stimulation with influenza virus
  • Hemagglutination Inhibition Ab Titer
    • Time Frame: Baseline and Day 28
    • Reciprocal of the serum dilution exhibiting no hemagglutination (the larger the number, the more agglutinating antibodies the subject has. A titer of equal to more than 1:40 and above is considered a protective antibody titer)
  • T Cell Gene Expression
    • Time Frame: Baseline, Day 28
    • Gene expression counts. The number shown is the total number of RNA molecules whose sequence matches a human gene. This is a measure of how much gene expression is occurring in the cells in each subject’s blood sample.
  • T Cell miRNA Expression
    • Time Frame: Baseline, Day 8, Day 28
    • Next generation sequencing of purified T cells’ miRNA
  • Innate IFNAR1 Cell Gene Expression
    • Time Frame: Baseline, Day 8
    • IFNAR1 gene counts (the number of molecules of RNA whose sequence matches the interferon alpha receptor 1 gene that were present in the subject’s blood sample).
  • Innate Cell miRNA Expression
    • Time Frame: Baseline, Day 1, Day 8
    • Next generation sequencing of purified innate cells’ miRNA
  • Memory B Cell ELISPOT
    • Time Frame: Day 28
    • Number of influenza-specific Ab producing memory B cells. Spot Forming Units (SFUs) are the frequency of Ab secreting B cells in an ELISPOT assay.

Secondary Measures

  • T Cell ELISPOT Response
    • Time Frame: Day 28
    • influenza-specific, IFNg producing, memory T cells. Spot Forming Units (SFUs) are the frequency of IFN-g secreting T cells in an ELISPOT assay.
  • T Cell Phenotype
    • Time Frame: Day 28
    • Flow cytometry analysis of T cells. The results show the percentage of specific white blood cell types are present in each subject’s blood sample. Reported as a % of the total peripheral blood mononuclear cells.
  • Innate Cell Phenotype
    • Time Frame: Day 1 (stim)
    • Flow cytometry analysis of innate cells. The results show the percentage of classical monocytes in each subject’s blood sample. The data are reported as a percentage of the peripheral blood mononuclear cells.
  • CMV Serostatus
    • Time Frame: Baseline
    • Serum CMV-specific IgG level. Number reported as Sample Index (the optical density in an ELISA). The Sample Index is a semi-quantitative measure of how much CMV-specific IgG antibodies are in each subject’s blood sample. The values range from 0 to 4. Values between 0 and 3 are relative measures of the amount of antibody (0 = no antibody, 1 = a low level of antibody, 3 = a high level of antibody). Values from 3-4 all reflect high levels of antibody but typically exceed the linear range of the assay and cannot be used to quantify exact amounts of antibody.
  • CD4/CD8 Ratio
    • Time Frame: Day 28
    • Flow cytometry analysis of T cells. The results show the ratio of CD4+ T cells compared to CD8+ T cells present in each subject’s PBMCs.

Participating in This Clinical Trial

Inclusion Criteria

  • Male or female adults ages 18-40 or of 65 and or older at the time of enrollment – Eligible to receive Fluad® (MF59Flu) or Fluzone® (HDFlu) if age 65 or older – No history of anaphylactic reaction to gelatin, neomycin, or other vaccine component – Not pregnant – No immunosuppression or immunodeficiency – No acute illness at time of vaccination – Determined by medical history and clinical judgment to be eligible for the study, by being generally healthy, with no autoimmune or immunosuppressive conditions and having stable current medical conditions (subjects with preexisting stable disease, defined as disease not requiring significant change in therapy or hospitalization for worsening disease 12 weeks before receipt of study vaccine, will be eligible. A change in dose or therapy within a category (e.g., change from one nonsteroidal anti-inflammatory drug to another) is allowed. A change to a new therapy category (e.g., surgery or addition of a new pharmacological class) is only allowed if it is not caused by worsening disease. A change to a new therapy category caused by worsening disease is considered significant and therefore ineligible for enrollment. – Patients with diabetes mellitus are eligible for inclusion if they have had a hemoglobin A1c measurement of <8.0 within the past 6 months prior to enrollment. These hemoglobin A1c measurements are recommended at least twice yearly by the American Diabetes Association (ADA), and the target levels here are representative of the goals of the ADA. These hemoglobin A1c levels will ensure that these participants have good glycemic control. (American Diabetes Association. American Diabetes Association Position Statement: Standards of Medical Care in Diabetes- 2015. Diabetes Care 2015;38(Suppl. 1): S1-S94) – Able to follow study procedures in the opinion of the investigator – Expected to be available for the duration of the study – Weighs >110 lbs Exclusion Criteria:

  • Known or suspected immunodeficiency or receiving treatment with immunosuppressive therapy including cytotoxic agents or systemic corticosteroids (e.g., for cancer, HIV, or autoimmune disease). If systemic corticosteroids have been administered short term for treatment of an acute illness, subjects will be included if corticosteroid therapy (inhaled, intranasal, and intra-articular corticosteroid therapy is permitted) has been discontinued for at least 30 days. – Serious chronic medical conditions including metastatic malignancy, severe chronic obstructive pulmonary disease requiring supplemental oxygen, end-stage renal disease with or without dialysis, clinically unstable cardiac disease, or any other disorder that, in the investigator's opinion, precludes the subject from participating in the study. Diabetic patients will be excluded if they do not have a hemoglobin A1c measurement within the past 6 months or if they had a hemoglobin A1c measurement of an A1c >8.0 – Receipt of any blood products, including immunoglobulin, within 6 months of study enrollment. – Current anticoagulant therapy or a history of bleeding diathesis that would contraindicate intramuscular (IM) injection. (Note: antiplatelet drugs such as aspirin and clopidogrel are permitted.) – Receipt of any vaccines within the past 30 days prior to enrollment – Receipt of the current seasonal influenza vaccine other than in this study – Acute illness within the last 30 days – Blood donation within the last 58 days prior to study enrollment – Any medical condition that would, in the opinion of the investigator, interfere with the evaluation of the study objectives – Pregnant patients will be excluded – Any condition (e.g. allergic reaction, Guillain-Barre Syndrome) that precludes their receipt of the influenza vaccine

Gender Eligibility: All

Minimum Age: 65 Years

Maximum Age: N/A

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • Mayo Clinic
  • Collaborator
    • National Institute of Allergy and Infectious Diseases (NIAID)
  • Provider of Information About this Clinical Study
    • Principal Investigator: Richard B. Kennedy, Principal Investigator – Mayo Clinic
  • Overall Official(s)
    • Richard B Kennedy, Principal Investigator, Mayo Clinic

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