leptin and Respiratory-Tract-Infections

Respiratory viruses are associated with significant global morbidity and mortality, as well as socioeconomic factors. Certain conditions and patient groups are more susceptible to develop severe viral respiratory tract infections (RTIs).. To summarise the data on deregulated immune pathways that have been associated with increased susceptibility to severe viral RTIs in certain populations. We also describe the commonalities of the defective immune pathways across these susceptible populations that may represent possible targets for future therapeutic or preventative approaches.. We conducted free searches in Medline, Scopus, and Google Scholar for studies focusing on potential mechanisms of immune dysfunction that may be associated with severe viral RTIs in susceptible populations with conditions including pregnancy, obesity, diabetes mellitus, hypertension, cardiovascular disease, asthma, chronic obstructive pulmonary disease (COPD), chronic kidney disease, and extremes of age. We considered preclinical/animal data, original human studies, and reviews.. Innate and adaptive immune responses become quantitatively and qualitatively compromised in aging, obesity, and diabetes mellitus, with the most pronounced changes affecting T cells. Moreover, immune dysregulation by the so-called inflamm-aging results in chronic low-grade inflammation in such conditions. Increased leptin levels affect the immune system particularly in obesity, while leptin dysregulation plays a role in asthma and COPD pathogenesis. Deficient production of interferon (IFN) type I and III in response to rhinovirus contributes to asthma exacerbations. Similar attenuation of IFN production in response to influenza and rhinovirus has been documented in pregnancy. Dampened type I IFN responses have also been found in diet-induced obese mice and in obese individuals.. Immunosenescence and chronic low-grade inflammation accompanying aging and a variety of chronic conditions, such as diabetes, obesity, asthma, COPD, chronic renal disease, and hypertension, contribute to the poor outcomes observed following viral respiratory infections. Commonly affected pathways may represent potential future therapeutic targets.

Topics: Animals; Asthma; Disease Susceptibility; Enterovirus Infections; Humans; Hypertension; Immunity; Inflammation; Interferons; Leptin; Mice; Obesity; Pneumonia; Pulmonary Disease, Chronic Obstructive; Respiratory Tract Infections; Rhinovirus

The number of overweight and obese individuals has dramatically increased in the US and other developed nations during the past 30 years. While type II diabetes and cardiovascular disease are well recognized co-morbid conditions associated with obesity, recent reports have demonstrated a greater severity of illness in obese patients due to influenza during the 2009 H1N1 pandemic. Consistent with these reports, diet-induced obesity has been shown to impair anti-viral host defense in murine models of influenza infection. However, the impact of obesity on the risk of community-acquired and nosocomial pneumonia in human patients is not clear. Relatively few studies have evaluated the influence of diet-induced obesity in murine models of bacterial infections of the respiratory tract. Obese leptin deficient humans and leptin and leptin-receptor deficient mice exhibit greater susceptibility to respiratory infections suggesting a requirement for leptin in the pulmonary innate and adaptive immune response to infection. In contrast to these studies, we have observed that obese leptin receptor signaling mutant mice are resistant to pneumococcal pneumonia highlighting the complex interaction between leptin receptor signaling and immune function. Given the increased prevalence of obesity and poor responsiveness of obese individuals to vaccination against influenza, the development of novel immunization strategies for this population is warranted. Additional clinical and animal studies are needed to clarify the relationship between increased adiposity and susceptibility to community-acquired and nosocomial pneumonia.

Topics: Adiposity; Animals; Bacterial Infections; Disease Models, Animal; Humans; Influenza, Human; Leptin; Mice; Obesity; Pneumonia; Receptors, Leptin; Respiratory Tract Infections; Severity of Illness Index; United States

Infectious disease is the major cause of morbidity and mortality in developing countries, particularly in children. Increasing evidence suggests that protein-calorie malnutrition is the underlying reason for the increased susceptibility to infections observed in these areas. Moreover, certain infectious diseases also cause malnutrition, which can result in a vicious cycle. Malnutrition and bacterial gastrointestinal and respiratory infections represent a serious public health problem. The increased incidence and severity of infections in malnourished children is largely due to the deterioration of immune function; limited production and/or diminished functional capacity of all cellular components of the immune system have been reported in malnutrition. In this review, we analyze the cyclical relationship between malnutrition, immune response dysfunction, increased susceptibility to infectious disease, and metabolic responses that further alter nutritional status. The consequences of malnutrition are diverse and included: increased susceptibility to infection, impaired child development, increased mortality rate and individuals who come to function in suboptimal ways.

Topics: Animals; Bacterial Infections; Child; Child Nutrition Disorders; Gastroenteritis; Humans; Leptin; Nutritional Status; Respiratory Tract Infections