Immunosenescence, Inflammaging, and Lung Senescence in Asthma in the Elderly.
Tomoyuki SomaMakoto NagataPublished in: Biomolecules (2022)
Prevalence of asthma in older adults is growing along with increasing global life expectancy. Due to poor clinical consequences such as high mortality, advancement in understanding the pathophysiology of asthma in older patients has been sought to provide prompt treatment for them. Age-related alterations of functions in the immune system and lung parenchyma occur throughout life. Alterations with advancing age are promoted by various stimuli, including pathobionts, fungi, viruses, pollutants, and damage-associated molecular patterns derived from impaired cells, abandoned cell debris, and senescent cells. Age-related changes in the innate and adaptive immune response, termed immunosenescence, includes impairment of phagocytosis and antigen presentation, enhancement of proinflammatory mediator generation, and production of senescence-associated secretory phenotype. Immnunosenescence could promote inflammaging (chronic low-grade inflammation) and contribute to late-onset adult asthma and asthma in the elderly, along with age-related pulmonary disease, such as chronic obstructive pulmonary disease and pulmonary fibrosis, due to lung parenchyma senescence. Aged patients with asthma exhibit local and systemic type 2 and non-type 2 inflammation, associated with clinical manifestations. Here, we discuss immunosenescence's contribution to the immune response and the combination of type 2 inflammation and inflammaging in asthma in the elderly and present an overview of age-related features in the immune system and lung structure.
Keyphrases
- chronic obstructive pulmonary disease
- lung function
- immune response
- late onset
- allergic rhinitis
- low grade
- oxidative stress
- induced apoptosis
- dna damage
- endothelial cells
- cystic fibrosis
- air pollution
- dendritic cells
- type diabetes
- pulmonary hypertension
- early onset
- stem cells
- bone marrow
- physical activity
- single cell
- stress induced
- coronary artery disease
- young adults
- cell therapy
- mesenchymal stem cells
- single molecule