New eBook Announcement | Stress Response And Immunity: Links And Trade Offs

 

Editor: “Nadia Danilova”

 

All living organisms face two major challenges: to adjust to constantly changing environment and to protect themselves from pathogens. How organisms integrate responses to these challenges is the subject of this book. Cellular machinery can function properly only in a narrow range of condition. The same is true for multicellular organisms. When conditions deviate from the acceptable range, that creates stress and requires change. Physical stress can be caused by starvation, heat, cold, irradiation, and other factors. In addition, higher animals can experience mental stress caused by fear, neglect, isolation etc. Stress response is a set of measures that preserve homeostasis in the face of environmental changes. Pathogens are another challenge for most life forms. Viruses and mobile genetic elements infect all organisms. Multicellular organisms can also be infected by bacterial and eukaryotic pathogens. These subjects are presented in the first two chapters of the book.

The next section presents the elaborate mechanisms of stress and immune responses in bacteria and archaea. A common response to stress in prokaryotes includes, among other means, switching to an alternative transcriptional mode. Prokaryotic immunodefense mechanisms are built on two strategies that are also conserved in eukaryotes. One is innate immunity based on genetically encoded molecules/receptors. The other — adaptive immunity is based on unique molecules/receptors that are created de novo in response to infection.

Eukaryotic stress response is discussed next. Global inhibition of translation, called integrated stress response, is a common reaction to many stresses in eukaryotic cells. In multicellular organisms, most individual cells have autonomous immunodefense mechanisms which function in collaboration with stress response. Some stress responses can participate in immunodefense. A notable example is unfolded protein response. It cleanses the cell of misfolded proteins plus also targets viral proteins because of their difference from cellular proteins. In animals, cellular stress response can trigger cytokine production and systemic response, which includes inflammation and engagement of specialised immune systems. Even subtle changes in homeostasis can activate such a response. The incredible sensitivity of cellular machinery to changes has a dark side; stress and ensuing immune mechanisms such as inflammation and complement can be induced without infection or substantial injury and lead to pathology.

In complex organisms with specialised immune systems, discussed next, the relationship between stress and immunity becomes more complex and sometimes antagonistic. Mental stress can cause activation of immune mechanisms, which, in turn, can affect the brain’s functioning, and behavior. In the recent decade, science has discovered the paramount importance of interaction of all levels of stress response with immunity in the etiology of many human diseases from atherosclerosis to Alzheimer’s. Read out the full version here 

 

 

Nadia Danilova
Department of Molecular,
Cell & Developmental Biology,
University of California, Los Angeles CA,
USA

 

ARTICLE TO READ ON WORLD ASTHMA DAY

Maternal Vitamin D Status and Development of Asthma and Allergy in Early Childhood

Author(s): Anna Papadopoulou, Evangelia Bountouvi, Vasiliki Papaevaggelou, Kostas N. Priftis.

Abstract:

Vitamin D has an indisputable immunodulatory role in both lung and immune system development, which is initiated during fetal life and is mainly accomplished in the first years of extrauterine life. Several published studies have shown that low levels of vitamin D may increase the risk of developing asthma and allergic diseases. Moreover, vitamin D deficiency epidemic reported over the last decades coincides with an increase in the prevalence of asthma and allergies in westernized societies. Since placental transfer of 25(OH)D is the major source of vitamin D in the developing fetus, important questions concerning the impact of maternal vitamin D status on the outcome of pregnancy have arisen. The aim of this review is to present the current evidence regarding the determinants of vitamin D status in pregnancy as well as its role in the development of asthma and allergies in early childhood.

Read more here: http://www.eurekaselect.com/131440

 

Most Accessed Article – Inflammasomes – A Mini-Review – Current Immunology Reviews

Journal: Current Immunology Reviews

Author(s): Mahirah Mahmud, Mek K. Jing, Adi Idris.

Abstract:

The cells of the innate immune system continually undergo surveillance of the extracellular milieu to serve as the first line of defense against invading microbial pathogens. As a result, these innate immune cells have evolved receptors to sense microbial motifs and danger signals. The inflammasome is an important component of the innate immune system’s “arsenal” against invading microbes such as viruses and bacteria and acts as a homeostatic checkpoint to regulate inflammation. Inflammasomes are cytosolic multi-protein complexes that activate caspase 1 and 11, which result in the production of pro-inflammatory interleukin (IL)-1β and IL-18, and cell death. Several studies have uncovered the mechanisms of inflammasome activation in response to various stimuli ranging from environmental stimulants to microbial components. This mini-review summarizes the current developments and updates in the mechanism of action of inflammasomes.

To access the article, please visit: http://www.eurekaselect.com/132833

Stay Protected!!