Diet-induced obesity affects influenza disease severity and transmission dynamics in ferrets.
Victoria A MeliopoulosRebekah HonceBrandi LivingstonVirginia HargestPamela FreidenLauren LazurePamela H BriglebErik Albert KarlssonHeather S SheppardEmma Kaitlynn AllenDavid F BoydPaul Glyndwr ThomasStacey Schultz-CherryPublished in: Science advances (2024)
Obesity, and the associated metabolic syndrome, is a risk factor for increased disease severity with a variety of infectious agents, including influenza virus. Yet, the mechanisms are only partially understood. As the number of people, particularly children, living with obesity continues to rise, it is critical to understand the role of host status on disease pathogenesis. In these studies, we use a diet-induced obese ferret model and tools to demonstrate that, like humans, obesity resulted in notable changes to the lung microenvironment, leading to increased clinical disease and viral spread to the lower respiratory tract. The decreased antiviral responses also resulted in obese animals shedding higher infectious virus for a longer period, making them more likely to transmit to contacts. These data suggest that the obese ferret model may be crucial to understanding obesity's impact on influenza disease severity and community transmission and a key tool for therapeutic and intervention development for this high-risk population.
Keyphrases
- metabolic syndrome
- weight loss
- insulin resistance
- type diabetes
- high fat diet induced
- bariatric surgery
- weight gain
- uric acid
- adipose tissue
- respiratory tract
- cardiovascular risk factors
- stem cells
- randomized controlled trial
- healthcare
- obese patients
- skeletal muscle
- mental health
- body mass index
- artificial intelligence