Adrian Egli, from the University of Basel, Switzerland, and colleagues started with blood samples from organ transplant patients. Such patients are at elevated risk from infections because their immune system is dampened by immune-suppressive drugs used to prevent rejection, but under these circumstances, vaccines generally do not work well. Vaccine developers are trying to improve vaccines for transplant recipients and other people with a weak immune system, and the samples used in this study came from a clinical trial of different versions of a flu vaccine in patients on immune-suppressive drugs.
Because previous studies had suggested that different alleles (versions) of the IL-28B gene affect immune responses, the researchers determined which alleles the transplant recipients carried. Like for most genes, each person has two copies of the IL-28B gene. For the particular variant of interest, one version, the T allele is more common, and of 196 patients, 135 had two copies of the T allele. Of the remaining 61 patients, 54 had one copy of T allele and one copy of the minor G allele, and 7 patients had two copies of the G allele.
The researchers found that individuals who had at least one copy of the minor allele were more likely to achieve seroconversion (i.e. have detectable antibodies against the particular influenza strain) after vaccination. The difference was particularly pronounced for people on high doses of immune-suppressant drugs. To understand how the different alleles influence the immune response to vaccination, the researchers next looked in more detail at immune cells from 47 of the patients (34 had two major T alleles, and 13 had at least one minor G allele).
They found substantial differences following influenza vaccination in the production of immune-modulators that determine the type of T-cell response and in the proliferation and production of antibodies by B cells. Adding more IL-28B to the growth medium of T- and B-cells, made the cells behave more like those from major allele carriers, with a marked reduction of B-cell activation and antibody production.
To see whether the results are relevant for people who do not take immune-suppressant drugs, the researchers enlisted a group of healthy volunteers (28 with two major T alleles and 21 who carried at least one minor G allele). They found that minor allele carriers had less IL-28B gene product activation stronger antibody immune response to influenza vaccination. And when they pre-treated immune cells from vaccinated major allele carriers with a molecule that inhibits the receptor that is normally stimulated by IL-28B, they saw a stronger antibody response after the cells were stimulated with influenza vaccine.
Their results, the researchers conclude, identify IL-28B as a key regulator of the immune response to influenza vaccination. They suggest that blockage of the IL-28B receptor could offer a novel strategy to boost the antibody response to influenza vaccine and others, thus opening up a new avenue for developing novel vaccine adjuvants and immunotherapeutic drugs.
The above story is based on materials provided by PLOS. Note: Materials may be edited for content and length.
- Adrian Egli, Deanna M. Santer, Daire O’Shea, Khaled Barakat, Mohammedyaseen Syedbasha, Madeleine Vollmer, Aliyah Baluch, Rakesh Bhat, Jody Groenendyk, Michael A. Joyce, Luiz F. Lisboa, Brad S. Thomas, Manuel Battegay, Nina Khanna, Thomas Mueller, D. Lorne J. Tyrrell, Michael Houghton, Atul Humar, Deepali Kumar. IL-28B is a Key Regulator of B- and T-Cell Vaccine Responses against Influenza. PLoS Pathogens, 2014; 10 (12): e1004556 DOI:10.1371/journal.ppat.1004556
PLOS. “A key human gene modifies the immune response to flu vaccine.” ScienceDaily. ScienceDaily, 11 December 2014. <www.sciencedaily.com/releases/2014/12/141211142140.htm>.