0
selected
-
1.
The Effect of Bacterial Infections, Probiotics and Zonulin on Intestinal Barrier Integrity.
Serek, P, Oleksy-Wawrzyniak, M
International journal of molecular sciences. 2021;(21)
Abstract
The intestinal barrier plays an extremely important role in maintaining the immune homeostasis of the gut and the entire body. It is made up of an intricate system of cells, mucus and intestinal microbiota. A complex system of proteins allows the selective permeability of elements that are safe and necessary for the proper nutrition of the body. Disturbances in the tightness of this barrier result in the penetration of toxins and other harmful antigens into the system. Such events lead to various digestive tract dysfunctions, systemic infections, food intolerances and autoimmune diseases. Pathogenic and probiotic bacteria, and the compounds they secrete, undoubtedly affect the properties of the intestinal barrier. The discovery of zonulin, a protein with tight junction regulatory activity in the epithelia, sheds new light on the understanding of the role of the gut barrier in promoting health, as well as the formation of diseases. Coincidentally, there is an increasing number of reports on treatment methods that target gut microbiota, which suggests that the prevention of gut-barrier defects may be a viable approach for improving the condition of COVID-19 patients. Various bacteria-intestinal barrier interactions are the subject of this review, aiming to show the current state of knowledge on this topic and its potential therapeutic applications.
-
2.
The role of peptides cleaved from protein precursors in eliciting plant stress reactions.
Chen, YL, Fan, KT, Hung, SC, Chen, YR
The New phytologist. 2020;(6):2267-2282
Abstract
As sessile organisms, plants are exposed to diverse abiotic and biotic stresses, and thus have developed complex signaling mechanisms that orchestrate multiple stress responses. Plant peptides have recently emerged as key signaling molecules of stress responses, not only to mechanical wounding and pathogen infection but also to nutrient imbalance, drought and high salinity. The currently identified stress-related signaling peptides in plants are derived from proteolytic processing of protein precursors. Here, we review these protein-derived peptides and the evidence for their functions in stress signaling. We recommend potential research directions that could clarify their roles in stress biology, and propose possible crosstalk with regard to the physiological outcome. The stress-centric perspective allows us to highlight the crucial roles of peptides in regulating the dynamics of stress physiology. Inspired by historic and recent findings, we review how peptides initiate complex molecular interactions to coordinate biotic and abiotic stress responses in plants.
-
3.
The potential role of oxytocin and perinatal factors in the pathogenesis of autism spectrum disorders - review of the literature.
Vanya, M, Szucs, S, Vetro, A, Bartfai, G
Psychiatry research. 2017;:288-290
-
-
Free full text
-
Abstract
Autism Spectrum Disorders (ASD) are characterized by: social and communication impairments, and by restricted repetitive behaviors. The aim of the present paper is to review abnormalities of oxytocin (OXT) and related congenital malformations in ASD. A literature search was conducted in the PubMed database up to 2016 for articles related to the pathomechanism of ASD, abnormalities of OXT and the OXT polymorphism in ASD. The pathomechanism of ASD has yet to be. The development of ASD is suggested to be related to abnormalities of the oxytocin-arginin-vasopressin system. Previous results suggest that OXT and arginine vasopressin (AVP) may play a role in the etiopathogenesis of ASD.
-
4.
[Procalcitonin as a marker of the systemic inflammatory response to infection].
Reingardiene, D
Medicina (Kaunas, Lithuania). 2004;(7):696-701
Abstract
Despite advances in the diagnosis and treatment of infections diseases, sepsis and ensuing multiorgan failure are the major causes of morbidity and mortality in the intensive care units. Such manifestations of systemic inflammation as fever, leukocytosis, tachycardia, etc. may be noninfectious in origin and are neither specific nor sensitive for sepsis. Procalcitonin is a new potential marker for detection of bacterial, fungal and protozoal infections. Procalcitonin, a propeptide of calcitonin, is normally produced in the C-cells of the thyroid gland. Procalcitonin is a polypeptide consisting of 116 amino acids and with a molecular weight of about 13 kDa. During severe systemic infections it is produced by extrathyroidal tissues. Procalcitonin can be put to immediate use in both diagnostic and therapeutic decision-making. This review article discusses biology of procalcitonin, its laboratory determination, usage as an indicator for severe infection and sepsis, and comparison with circulating cytokines in severe infection. It also reviews value of procalcitonin in differentiation of infectious vs non-infectious inflammatory host response, possible elevation of procalcitonin in the absence of infection, its use for differentiation of viral and non-viral infections and as marker for prognosis and evaluation of therapy. Specific indications for determination of procalcitonin are also discussed.
-
5.
Atrial natriuretic peptide prohormone gene expression: hormones and diseases that upregulate its expression.
Vesely, DL
IUBMB life. 2002;(3):153-9
Abstract
Atrial natriuretic peptides consist of a family of peptide hormones that are synthesized by three separate genes and then stored as three different prohormones (i.e., 126-amino acid [a.a.]) atrial natriuretic peptide (ANP), 108-a.a. brain natriuretic peptide (BNP), and 126-aa. C-natriuretic peptide (CNP) prohormones. The gene encoding for the synthesis of the atrial natriuretic peptide prohormone (proANP) consists of three exons and two introns. Exon 1 encodes the signal peptide and the first 16 aa. of the ANP prohormone. These 16 a.a. form the N-terminus of a peptide hormone named long-acting natriuretic hormone (LANH). A valine-to-methionine substitution in LANH results in a 2-fold increased incidence of strokes in humans. Exon 2 of the proANP gene encodes for three peptide hormones, i.e., vessel dilator, kaliuretic hormone, and ANP. Each of the proANP gene products have vasodilatory, diuretic, natriuretic, and/or kaliuretic properties. Stretch, glucocorticoids, thyroid hormone(s), mineralocorticoids, and calcium enhance proANP gene expression. Enhanced proANP gene expression is found in congestive heart failure, hypertension, and cirrhosis with ascites. The proANP gene is present with invertebrates and plants as well as in humans and other vertebrates.