People who preserve 'immune resilience' live longer, resist infections
SAN ANTONIO (PRWEB) June 25, 2023
Researchers from The University of Texas Health Science Center at San Antonio, working with collaborators in five countries, revealed that the capacity to resist or recover from infections and other sources of inflammatory stress -- called "immune resilience" -- differs widely among individuals. The researchers developed a unique set of metrics to quantify the level of immune resilience. This will aid in decisions for health care and help researchers understand differences in life span and health outcomes in persons of similar ages. These findings were published in Nature Communications.
The study was supported by a MERIT award and other grants from the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health; awards from the U.S. Veterans Health Administration; and a Distinguished Clinical Scientist Award from the Doris Duke Charitable Foundation.
Not age-dependent
Although age plays an important role in the body's response to infectious and other inflammatory stressors, some persons preserve and/or restore optimal immune resilience regardless of age, noted first and senior author Sunil K. Ahuja, MD, professor at UT Health Science Center San Antonio with a specialty in infectious diseases. He is director of the Veterans Administration (VA) Center for Personalized Medicine, a national center within the South Texas Veterans Health Care System.
"Immune resilience is the capacity to maintain good immune function, called immunocompetence, and minimize inflammation while experiencing inflammatory stressors," said Weijing He, MD, co-author and senior research scientist at the VA Center for Personalized Medicine and Foundation for Advancing Veterans' Health Research. "We found that during aging and when experiencing inflammatory stress, some persons resist degradation of immune resilience."
Results
The laboratory tests developed to assess levels of immune resilience were evaluated in nearly 50,000 persons of differing ages and types of challenges to their immune systems. This evaluation demonstrated that individuals with optimal levels of immune resilience were more likely to:
- Live longer.
- Resist HIV and influenza infections.
- Resist AIDS.
- Resist recurrence of skin cancer after kidney transplant.
- Survive COVID-19 infection.
- Survive sepsis.
- By measuring the balance between CD8+ and CD4+ T-cells, which are types of white blood cells. T-cells fight infections, but an imbalance in their levels occurs in many infectious and autoimmune diseases. The balance between CD8+ and CD4+ T-cells, divided into four distinct categories called immune health grades, was measured in varied infection cohorts and across the age spectrum.
- By measuring the expression levels of genes linked with immunocompetence and a greater chance of survival versus those linked with inflammation and a higher risk of death. The gene expression markers signifying high immunocompetence and low inflammation were identified with the immune health grade tracking optimal immune resilience.
Kidney transplant recipients
Immune resilience was also measured in kidney transplant recipients, who have a 100-fold excess risk of developing skin cancer. Each of the participants had developed this cancer once after transplant. "We explored the risk of getting a second cancer, dependent on immune health grades at the time each participant had the first cancer," said Matthew J. Bottomley, MD, DPhil, academic clinical lecturer in the Nuffield Department of Surgical Sciences, University of Oxford. "We found that, if someone had optimal immune resilience at the time of the first cancer, they resisted getting their second cancer."
In collaboration with investigators from Sardinia, the authors examined blood immune cell profiles of nearly 4,000 otherwise healthy individuals. "We found that irrespective of age, persons with poor immune resilience had immune cell profiles reflecting increased immune activation," noted coauthor Edoardo Fiorillo, PhD, of the Institute for Genetic and Biomedical Research, National Council of Research, Lanusei, Italy. "Interestingly, we observed that nonhuman primates with poor immune resilience also manifested similar immune cell profiles."
Females show greater immune resilience
One consistent finding throughout the populations studied was that age was not the single determinant factor in a person's response to inflammatory stress. Some younger persons with poor immune resilience had the same signatures and immune health grades commonly seen in older persons. This finding suggests that the ability to restore and maintain immunocompetence at younger ages may be linked to life span. Another factor noted across the populations and species was that higher levels of optimal immune resilience were observed more often in females than males. Genetic studies in humans and evaluation of mice with a genetic basis to have lower immune resilience suggest that immune resilience may be calibrated by variations in genes. Notably, mice with lower immune resilience were most susceptible to severe Ebola infection.
Understanding risks
Public health ramifications of immune checkups could be significant, Ahuja said. He noted that assessment of immune health grades estimated by CD8+ and CD4+ counts is a simple way to monitor immune resilience. These assessments have utility for understanding who might be at greater risk for developing diseases that affect the immune system, how individuals are responding to treatment, and whether, as well as to what extent, they will recover.
Funding
This research was supported by the following funders: 1) National Institute of Allergy and Infectious Diseases (NIAID) through grant number R37AI046326 (MERIT award); 2) the U.S. Department of Veterans Affairs (VA) Center for Personalized Medicine through grant number IP1 CX000875-01A1 and a VA MERIT award; and 3) a Distinguished Clinical Scientist Award from the Doris Duke Charitable Foundation. The study with COVID-19 patients was supported by an inter-agency agreement (IAA) from the NIAID Division of Allergy, Immunology and Transplantation (DAIT) to the VA. DAIT manages this IAA; the IAA number is AAI21051-001-00000.
Immune resilience despite inflammatory stress promotes longevity and favorable health outcomes including resistance to infection
Sunil K. Ahuja, MD; Muthu Saravanan Manoharan, MS; Grace C. Lee, PharmD, PhD; Lyle R. McKinnon, PhD; Justin A. Meunier, BS; Maristella Steri, PhD; Nathan Harper, MS; Edoardo Fiorillo, PhD; Alisha M. Smith, PhD; Marcos I. Restrepo, MD, MSc, PhD; Anne P. Branum, BS; Matthew J. Bottomley, MD, DPhil; Valeria Orrù, PhD; Fabio Jimenez, BS; Andrew Carrillo, BS; Lavanya Pandranki, MS; Caitlyn A. Winter, MS; Lauryn A. Winter, MS; Alvaro A. Gaitan, MD; Alvaro G. Moreira, MD; Elizabeth A. Walter, MD; Guido Silvestri, MD; Christopher L. King, MD, PhD; Yong-Tang Zheng, PhD; Hong-Yi Zheng, PhD; Joshua Kimani, MD, MPH; T. Blake Ball, PhD; Francis A. Plummer, MD; Keith R. Fowke, PhD; Paul N. Harden, MD; Kathryn J. Wood, PhD; Martin T. Ferris, PhD; Jennifer M. Lund, PhD; Mark T. Heise, PhD; Nigel Garrett, MBBS, PhD; Kristen R. Canady, MD, PhD; Salim S. Abdool Karim, MD, PhD; Susan J. Little, MD; Sara Gianella, MD; Davey M. Smith, MD, MAS; Scott Letendre, MD; Douglas D. Richman, MD; Francesco Cucca, MD, PhD; Hanh Trinh, MD; Sandra Sanchez-Reilly, MD; Joan M. Hecht, RN; Jose Cadena, MD; Antonio Anzueto, MD; Jacqueline A. Pugh, MD; South Texas Veterans Health Care System COVID-19 team; Brian K. Agan, MD; Robert Root-Bernstein, PhD; Robert A. Clark, MD; Jason F. Okulicz, MD; Weijing He, MD
First published: Nature Communications, June 13, 2023
https://www.nature.com/articles/s41467-023-38238-6
The University of Texas Health Science Center at San Antonio (UT Health San Antonio), is one of the country's leading health science universities and is designated as a Hispanic-Serving Institution by the U.S. Department of Education. With missions of teaching, research, patient care and community engagement, its schools of medicine, nursing, dentistry, health professions and graduate biomedical sciences have graduated more than 42,200 alumni who are leading change, advancing their fields and renewing hope for patients and their families throughout South Texas and the world. To learn about the many ways "We make lives better®," visit UTHealthSA.org.
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Read the full story at https://www.prweb.com/releases/people_who_preserve_immune_resilience_live_longer_resist_infections/prweb19410770.htm
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