New horizons in arginine metabolism, ageing and chronic disease states

Abstract The elucidation of the metabolic pathways of the amino acid arginine and their role in health and disease have been an intensive focus of basic and clinical research for over a century. The recent advent of robust analytical techniques for biomarker assessment in large population cohorts has allowed the investigation of the pathophysiological role of specific arginine metabolites in key chronic disease states in old age, particularly those characterised by a reduced synthesis of endothelial nitric oxide, with consequent vascular disease and atherosclerosis. Two arginine metabolites have been increasingly studied in regard to their potential role in risk stratification and in the identification of novel therapeutic targets: the methylated arginine asymmetric dimethylarginine (ADMA) and the arginine analogue homoarginine. Higher circulating concentrations of ADMA, a potent inhibitor of nitric oxide synthesis, have been shown to predict adverse cardiovascular outcomes. By contrast, there is emerging evidence that homoarginine might exert cardioprotective effects. This review highlights recent advances in the biological and clinical role of ADMA and homoarginine in cardiovascular disease and other emerging fields, particularly chronic obstructive pulmonary disease, dementia, and depression. It also discusses opportunities for future research directions with the ultimate goal of translating knowledge of arginine metabolism, and its role in health and disease, into the clinical care of older adults.

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Role of exhaled nitric oxide in predicting steroid response in chronic obstructive pulmonary disease

Orvosi Hetilap ◽

10.1556/oh.2010.28972 ◽

2010 ◽

Vol 151 (51) ◽

pp. 2083-2088 ◽

Cited By ~ 5

Author(s):

Balázs Antus

Keyword(s):

Nitric Oxide ◽

Chronic Obstructive Pulmonary Disease ◽

Pulmonary Disease ◽

Exhaled Nitric Oxide ◽

Chronic Obstructive ◽

Obstructive Pulmonary Disease ◽

Steroid Response

A kilégzett levegőben mérhető nitrogén-monoxid a legszélesebb körben vizsgált légúti biomarker. A stabil állapotú krónikus obstruktív tüdőbetegségben a kilégzett nitrogén-monoxid-szint hasonló vagy csak kismértékben emelkedett az egészségesekhez képest. Mivel a nitrogén-monoxid-szint szoros összefüggést mutat a légúti eosinophilia mértékével, és mivel az eosinophil típusú légúti gyulladás szteroidokra érzékenyebb, az emelkedett nitrogén-monoxid-szinttel rendelkező betegek jobb válaszkészséget mutatnak az inhalációs vagy szisztémás kortikoszteroidkezelésre. A krónikus obstruktív tüdőbetegség akut exacerbatiója során a kilégzett nitrogén-monoxid szintje megemelkedik, majd ennek kezelése után csökken. Mivel a nitrogén-monoxid-szint és a kezelés során elért légzésfunkciós javulás szoros korrelációt mutat egymással, a nitrogén-monoxid-méréssel a terápiás válasz megjósolható. Összefoglalva: a nitrogén-monoxid-méréssel a krónikus obstruktív tüdőbetegségben szenvedő betegek olyan alcsoportját lehet elkülöníteni, amelynek szteroidérzékenysége nagyobb. Orv. Hetil., 2010, 151, 2083–2088.

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Interpersonal Psychotherapy for the Treatment of Eating Disorders

The Oxford Handbook of Eating Disorders ◽

10.1093/oxfordhb/9780195373622.013.0020 ◽

2010 ◽

pp. 347-372 ◽

Cited By ~ 1

Author(s):

Marian Tanofsky-Kraff ◽

Denise E. Wilfley

Keyword(s):

Anorexia Nervosa ◽

Clinical Care ◽

Interpersonal Psychotherapy ◽

Future Research ◽

Cognitive Behavior ◽

Research Directions ◽

Routine Clinical Care ◽

Interpersonal Factors ◽

Future Research Directions

Interpersonal psychotherapy (IPT) is a focused, time-limited treatment that targets interpersonal problem(s) associated with the onset and/or maintenance of EDs. IPT is supported by substantial empirical evidence documenting the role of interpersonal factors in the onset and maintenance of EDs. IPT is a viable alternative to cognitive behavior therapy for the treatment of bulimia nervosa and binge eating disorder. The effectiveness of IPT for the treatment of anorexia nervosa requires further investigation. The utility of IPT for the prevention of obesity is currently being explored. Future research directions include enhancing the delivery of IPT for EDs, increasing the availability of IPT in routine clinical care settings, exploring IPT adolescent and parent–child adaptations, and developing IPT for the prevention of eating and weight-related problems that may promote full-syndrome EDs or obesity.

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Role of Insulin in Health and Disease: An Update

International Journal of Molecular Sciences ◽

10.3390/ijms22126403 ◽

2021 ◽

Vol 22 (12) ◽

pp. 6403

Author(s):

Md Saidur Rahman ◽

Khandkar Shaharina Hossain ◽

Sharnali Das ◽

Sushmita Kundu ◽

Elikanah Olusayo Adegoke ◽

...

Keyword(s):

Insulin Signaling ◽

Basic Research ◽

Future Research ◽

Protective Effects ◽

Glucose Levels ◽

Physiological Processes ◽

Blood Glucose Levels ◽

Wide Range ◽

Health And Disease

Insulin is a polypeptide hormone mainly secreted by β cells in the islets of Langerhans of the pancreas. The hormone potentially coordinates with glucagon to modulate blood glucose levels; insulin acts via an anabolic pathway, while glucagon performs catabolic functions. Insulin regulates glucose levels in the bloodstream and induces glucose storage in the liver, muscles, and adipose tissue, resulting in overall weight gain. The modulation of a wide range of physiological processes by insulin makes its synthesis and levels critical in the onset and progression of several chronic diseases. Although clinical and basic research has made significant progress in understanding the role of insulin in several pathophysiological processes, many aspects of these functions have yet to be elucidated. This review provides an update on insulin secretion and regulation, and its physiological roles and functions in different organs and cells, and implications to overall health. We cast light on recent advances in insulin-signaling targeted therapies, the protective effects of insulin signaling activators against disease, and recommendations and directions for future research.

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The Lipocalin Apolipoprotein D Functional Portrait: A Systematic Review

Frontiers in Physiology ◽

10.3389/fphys.2021.738991 ◽

2021 ◽

Vol 12 ◽

Author(s):

Diego Sanchez ◽

Maria D. Ganfornina

Keyword(s):

Systematic Review ◽

Physiological Function ◽

Physiological Role ◽

Future Research ◽

Lipid Management ◽

Health And Disease ◽

Apolipoprotein D ◽

Extracellular Structures ◽

Cellular Compartments

Apolipoprotein D is a chordate gene early originated in the Lipocalin protein family. Among other features, regulation of its expression in a wide variety of disease conditions in humans, as apparently unrelated as neurodegeneration or breast cancer, have called for attention on this gene. Also, its presence in different tissues, from blood to brain, and different subcellular locations, from HDL lipoparticles to the interior of lysosomes or the surface of extracellular vesicles, poses an interesting challenge in deciphering its physiological function: Is ApoD a moonlighting protein, serving different roles in different cellular compartments, tissues, or organisms? Or does it have a unique biochemical mechanism of action that accounts for such apparently diverse roles in different physiological situations? To answer these questions, we have performed a systematic review of all primary publications where ApoD properties have been investigated in chordates. We conclude that ApoD ligand binding in the Lipocalin pocket, combined with an antioxidant activity performed at the rim of the pocket are properties sufficient to explain ApoD association with different lipid-based structures, where its physiological function is better described as lipid-management than by long-range lipid-transport. Controlling the redox state of these lipid structures in particular subcellular locations or extracellular structures, ApoD is able to modulate an enormous array of apparently diverse processes in the organism, both in health and disease. The new picture emerging from these data should help to put the physiological role of ApoD in new contexts and to inspire well-focused future research.

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Endospores and other lysis-resistant bacteria comprise a widely shared core community within the human microbiota

10.1101/221713 ◽

2017 ◽

Author(s):

Sean M. Kearney ◽

Sean M. Gibbons ◽

Mathilde Poyet ◽

Thomas Gurry ◽

Kevin Bullock ◽

...

Keyword(s):

Dietary Fatty Acids ◽

Resistant Bacteria ◽

Human Gut ◽

Environmental Signals ◽

Human Microbiota ◽

Disease States ◽

Culture Independent ◽

Health And Disease ◽

Over Time

AbstractEndospore-formers in the human microbiota are well adapted for host-to-host transmission, and an emerging consensus points to their role in determining health and disease states in the gut. The human gut, more than any other environment, encourages the maintenance of endospore formation, with recent culture-based work suggesting that over 50% of genera in the microbiome carry genes attributed to this trait. However, there has been limited work on the ecological role of endospores and other stress-resistant cellular states in the human gut. In fact, there is no data to indicate whether organisms with the genetic potential to form endospores actually form endosporesin situand how sporulation varies across individuals and over time. Here, we applied a culture-independent protocol to enrich for endospores and other stress-resistant cells in human feces to identify variation in these states across people and within an individual over time. We see that cells with resistant states are more likely than those without to be shared among multiple individuals, which suggests that these resistant states are particularly adapted for cross-host dissemination. Furthermore, we use untargeted fecal metabolomics in 24 individuals and within a person over time to show that these organisms respond to shared environmental signals, and in particular, dietary fatty acids, that likely mediate colonization of recently disturbed human guts.

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The human cortical autonomic network and volitional exercise in health and disease

Applied Physiology Nutrition and Metabolism ◽

10.1139/apnm-2018-0305 ◽

2018 ◽

Vol 43 (11) ◽

pp. 1122-1130 ◽

Cited By ~ 7

Author(s):

Baraa K. Al-Khazraji ◽

J. Kevin Shoemaker

Keyword(s):

Current Knowledge ◽

Insular Cortex ◽

Cardiovascular Control ◽

Anterior Cingulate ◽

Disease States ◽

Autonomic Activation ◽

Imaging Research ◽

Health And Disease ◽

Cortical Regions

The autonomic nervous system elicits continuous beat-by-beat homeostatic adjustments to cardiovascular control. These modifications are mediated by sensory inputs (e.g., baroreceptors, metaboreceptors, pulmonary, thermoreceptors, and chemoreceptors afferents), integration at the brainstem control centres (i.e., medulla), and efferent autonomic neural outputs (e.g., spinal, preganglionic, and postganglionic pathways). However, extensive electrical stimulation and functional imaging research show that the brain’s higher cortical regions (e.g., insular cortex, medial prefrontal cortex, anterior cingulate cortex) partake in homeostatic regulation of the cardiovascular system at rest and during exercise. We now appreciate that these cortical areas form a network, namely the “cortical autonomic network” (CAN), which operate as part of a larger central autonomic network comprising 2-way communication of cortical and subcortical areas to exert autonomic influence. Interestingly, differential patterns of CAN activity and ensuing cardiovascular control are present in disease states, thereby highlighting the importance of considering the role of CAN as an integral aspect of cardiovascular regulation in health and disease. This review discusses current knowledge on human cortical autonomic activation during volitional exercise, and the role of exercise training on this activation in both health and disease.

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In Reply: Inhaled Nitric Oxide Trials: "Vive la différence!"

PEDIATRICS ◽

10.1542/peds.97.3.438a ◽

1996 ◽

Vol 97 (3) ◽

pp. 438-439

Author(s):

STEVEN H. ABMAN ◽

JOHN P. KINSELLA

Keyword(s):

Nitric Oxide ◽

Pulmonary Hypertension ◽

Clinical Care ◽

Inhaled Nitric Oxide ◽

Multicenter Studies ◽

Therapeutic Role ◽

Inappropriate Use ◽

Recent Commentary ◽

Potential Therapeutic Role

Dr Davidson misinterprets our recent commentary on the pathophysiology of persistent pulmonary hypertension of the newborn (PPHN) and potential therapeutic role of inhaled nitric oxide (I-NO) as suggesting the lack of a need for multiple studies that investigate different questions regarding its efficacy. In contrast, we clearly state that "multicenter studies play vital roles in improving clinical care, and the absence of such studies may lead to the inappropriate use of ineffective or harmful therapies."

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Future Research on the Role of the Mesentery in Health and Disease

10.1007/978-3-030-71963-0_50 ◽

2021 ◽

pp. 507-512

Author(s):

Eli D. Ehrenpreis ◽

Steven D. Wexner ◽

John C. Alverdy ◽

David H. Kruchko

Keyword(s):

Future Research ◽

Health And Disease

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Role of nitric oxide in plant responses to heavy metal stress: exogenous application versus endogenous production

Journal of Experimental Botany ◽

10.1093/jxb/erz184 ◽

2019 ◽

Vol 70 (17) ◽

pp. 4477-4488 ◽

Cited By ~ 27

Author(s):

Laura C Terrón-Camero ◽

M Ángeles Peláez-Vico ◽

Coral Del-Val ◽

Luisa M Sandalio ◽

María C Romero-Puertas

Keyword(s):

Nitric Oxide ◽

Heavy Metals ◽

Heavy Metal ◽

Human Health Risk ◽

Heavy Metal Stress ◽

Metal Stress ◽

Future Research ◽

Plant Responses ◽

Research Perspectives

Abstract Anthropogenic activities, such as industrial processes, mining, and agriculture, lead to an increase in heavy metal concentrations in soil, water, and air. Given their stability in the environment, heavy metals are difficult to eliminate and can constitute a human health risk by entering the food chain through uptake by crop plants. An excess of heavy metals is toxic for plants, which have various mechanisms to prevent their accumulation. However, once metals enter the plant, oxidative damage sometimes occurs, which can lead to plant death. Initial production of nitric oxide (NO), which may play a role in plant perception, signalling, and stress acclimation, has been shown to protect against heavy metals. Very little is known about NO-dependent mechanisms downstream from signalling pathways in plant responses to heavy metal stress. In this review, using bioinformatic techniques, we analyse studies of the involvement of NO in plant responses to heavy metal stress, its possible role as a cytoprotective molecule, and its relationship with reactive oxygen species. Some conclusions are drawn and future research perspectives are outlined to further elucidate the signalling mechanisms underlying the role of NO in plant responses to heavy metal stress.

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Exploring the Role of Endothelial Cell Resilience in Cardiovascular Health and Disease

Arteriosclerosis Thrombosis and Vascular Biology ◽

10.1161/atvbaha.120.314346 ◽

2020 ◽

Author(s):

Yunling Gao ◽

Zorina S. Galis

Keyword(s):

Risk Factors ◽

Paradigm Shift ◽

Cardiovascular Health ◽

Research Effort ◽

Future Research ◽

Therapeutic Approaches ◽

New Knowledge ◽

Health And Disease ◽

Disease Understanding

Traditionally, much research effort has been invested into focusing on disease, understanding pathogenic mechanisms, identifying risk factors, and developing effective treatments. A few recent studies unraveling the basis for absence of disease, including cardiovascular disease, despite existing risk factors, a phenomenon commonly known as resilience, are adding new knowledge and suggesting novel therapeutic approaches. Given the central role of endothelial function in cardiovascular health, we herein provide a number of considerations that warrant future research and considering a paradigm shift toward identifying the molecular underpinnings of endothelial resilience.

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