journal
https://read.qxmd.com/read/36228173/intracellular-ion-control-of-wnk-signaling
#41
REVIEW
Elizabeth J Goldsmith, Aylin R Rodan
The with no lysine (K) (WNK) kinases are an evolutionarily ancient group of kinases with atypical placement of the catalytic lysine and diverse physiological roles. Recent studies have shown that WNKs are directly regulated by chloride, potassium, and osmotic pressure. Here, we review the discovery of WNKs as chloride-sensitive kinases and discuss physiological contexts in which chloride regulation of WNKs has been demonstrated. These include the kidney, pancreatic duct, neurons, and inflammatory cells. We discuss the interdependent relationship of osmotic pressure and intracellular chloride in cell volume regulation...
October 13, 2022: Annual Review of Physiology
https://read.qxmd.com/read/36202100/endoplasmic-reticulum-plasma-membrane-junctions-as-sites-of-depolarization-induced-ca-2-signaling-in-excitable-cells
#42
REVIEW
Rose E Dixon, James S Trimmer
Membrane contact sites between endoplasmic reticulum (ER) and plasma membrane (PM), or ER-PM junctions, are found in all eukaryotic cells. In excitable cells they play unique roles in organizing diverse forms of Ca2+ signaling as triggered by membrane depolarization. ER-PM junctions underlie crucial physiological processes such as excitation-contraction coupling, smooth muscle contraction and relaxation, and various forms of activity-dependent signaling and plasticity in neurons. In many cases the structure and molecular composition of ER-PM junctions in excitable cells comprise important regulatory feedback loops linking depolarization-induced Ca2+ signaling at these sites to the regulation of membrane potential...
October 6, 2022: Annual Review of Physiology
https://read.qxmd.com/read/35143333/%C3%AE-adrenergic-receptors-and-adipose-tissue-metabolism-evolution-of-an-old-story
#43
REVIEW
Sheila Collins
The role of β-adrenergic receptors (βARs) in adipose tissue to promote lipolysis and the release of fatty acids and nonshivering thermogenesis in brown fat has been studied for so many decades that one would think there is nothing left to discover. With the rediscovery of brown fat in humans and renewed interest in UCP1 and uncoupled mitochondrial respiration, it seems that a review of adipose tissue as an organ, pivotal observations, and the investigators who made them would be instructive to understanding where the field stands now...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/35143332/roles-of-mineralocorticoid-receptors-in-cardiovascular-and-cardiorenal-diseases
#44
REVIEW
Jonatan Barrera-Chimal, Benjamin Bonnard, Frederic Jaisser
Mineralocorticoid receptor (MR) activation in the heart and vessels leads to pathological effects, such as excessive extracellular matrix accumulation, oxidative stress, and sustained inflammation. In these organs, the MR is expressed in cardiomyocytes, fibroblasts, endothelial cells, smooth muscle cells, and inflammatory cells. We review the accumulating experimental and clinical evidence that pharmacological MR antagonism has a positive impact on a battery of cardiac and vascular pathological states, including heart failure, myocardial infarction, arrhythmic diseases, atherosclerosis, vascular stiffness, and cardiac and vascular injury linked to metabolic comorbidities and chronic kidney disease...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/35143331/alcohol-associated-tissue-injury-current-views-on-pathophysiological-mechanisms
#45
REVIEW
Liz Simon, Flavia M Souza-Smith, Patricia E Molina
At-risk alcohol use is a major contributor to the global health care burden and leads to preventable deaths and diseases including alcohol addiction, alcoholic liver disease, cardiovascular disease, diabetes, traumatic injuries, gastrointestinal diseases, cancers, and fetal alcohol syndrome. Excessive and frequent alcohol consumption has increasingly been linked to alcohol-associated tissue injury and pathophysiology, which have significant adverse effects on multiple organ systems. Extensive research in animal and in vitro models has elucidated the salient mechanisms involved in alcohol-induced tissue and organ injury...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/35143330/ampk-and-the-adaptation-to-exercise
#46
REVIEW
Hannah R Spaulding, Zhen Yan
Noncommunicable diseases are chronic diseases that contribute to death worldwide, but these diseases can be prevented and mitigated with regular exercise. Exercise activates signaling molecules and the transcriptional network to promote physiological adaptations, such as fiber type transformation, angiogenesis, and mitochondrial biogenesis. AMP-activated protein kinase (AMPK) is a master regulator that senses the energy state, promotes metabolism for glucose and fatty acid utilization, and mediates beneficial cellular adaptations in many vital tissues and organs...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34843404/how-many-cell-types-are-in-the-kidney-and-what-do-they-do
#47
REVIEW
Michael S Balzer, Tibor Rohacs, Katalin Susztak
The kidney maintains electrolyte, water, and acid-base balance, eliminates foreign and waste compounds, regulates blood pressure, and secretes hormones. There are at least 16 different highly specialized epithelial cell types in the mammalian kidney. The number of specialized endothelial cells, immune cells, and interstitial cell types might even be larger. The concerted interplay between different cell types is critical for kidney function. Traditionally, cells were defined by their function or microscopical morphological appearance...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34780259/cardiac-transverse-tubules-in-physiology-and-heart-failure
#48
REVIEW
Katharine M Dibb, William E Louch, Andrew W Trafford
In mammalian cardiac myocytes, the plasma membrane includes the surface sarcolemma but also a network of membrane invaginations called transverse (t-) tubules. These structures carry the action potential deep into the cell interior, allowing efficient triggering of Ca2+ release and initiation of contraction. Once thought to serve as rather static enablers of excitation-contraction coupling, recent work has provided a newfound appreciation of the plasticity of the t-tubule network's structure and function. Indeed, t-tubules are now understood to support dynamic regulation of the heartbeat across a range of timescales, during all stages of life, in both health and disease...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34780258/innate-bacteriostatic-mechanisms-defend-the-urinary-tract
#49
REVIEW
Jose A Munoz, Anne-Catrin Uhlemann, Jonathan Barasch
Urinary tract infection (UTI) is the most common type of urogenital disease. UTI affects the urethra, bladder, ureter, and kidney. A total of 13.3% of women, 2.3% of men, and 3.4% of children in the United States will require treatment for UTI. Traditionally, bladder (cystitis) and kidney (pyelonephritis) infections are considered independently. However, both infections induce host defenses that are either shared or coordinated across the urinary tract. Here, we review the chemical and biophysical mechanisms of bacteriostasis, which limit the duration and severity of the illness...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34780257/running-the-female-power-grid-across-lifespan-through-brain-estrogen-signaling
#50
REVIEW
Holly A Ingraham, Candice B Herber, William C Krause
The role of central estrogen in cognitive, metabolic, and reproductive health has long fascinated the lay public and scientists alike. In the last two decades, insight into estrogen signaling in the brain and its impact on female physiology is beginning to catch up with the vast information already established for its actions on peripheral tissues. Using newer methods to manipulate estrogen signaling in hormone-sensitive brain regions, neuroscientists are now identifying the molecular pathways and neuronal subtypes required for controlling sex-dependent energy allocation...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34758268/mitochondrial-h-leak-and-thermogenesis
#51
REVIEW
Ambre M Bertholet, Yuriy Kirichok
Mitochondria of all tissues convert various metabolic substrates into two forms of energy: ATP and heat. Historically, the primary focus of research in mitochondrial bioenergetics was on the mechanisms of ATP production, while mitochondrial thermogenesis received significantly less attention. Nevertheless, mitochondrial heat production is crucial for the maintenance of body temperature, regulation of the pace of metabolism, and prevention of oxidative damage to mitochondria and the cell. In addition, mitochondrial thermogenesis has gained significance as a pharmacological target for treating metabolic disorders...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34752709/adrenergic-regulation-of-calcium-channels-in-the-heart
#52
REVIEW
Arianne Papa, Jared Kushner, Steven O Marx
Each heartbeat is initiated by the action potential, an electrical signal that depolarizes the plasma membrane and activates a cycle of calcium influx via voltage-gated calcium channels, calcium release via ryanodine receptors, and calcium reuptake and efflux via calcium-ATPase pumps and sodium-calcium exchangers. Agonists of the sympathetic nervous system bind to adrenergic receptors in cardiomyocytes, which, via cascading signal transduction pathways and protein kinase A (PKA), increase the heart rate (chronotropy), the strength of myocardial contraction (inotropy), and the rate of myocardial relaxation (lusitropy)...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34752708/adipose-tissue-fibrosis-in-obesity-etiology-and-challenges
#53
REVIEW
Geneviève Marcelin, Emmanuel L Gautier, Karine Clément
Obesity is a chronic and progressive process affecting whole-body energy balance and is associated with comorbidity development. In addition to increased fat mass, obesity induces white adipose tissue (WAT) inflammation and fibrosis, leading to local and systemic metabolic dysfunctions, such as insulin resistance (IR). Accordingly, limiting inflammation or fibrosis deposition may improve IR and glucose homeostasis. Although no targeted therapy yet exists to slow or reverse adipose tissue fibrosis, a number of findings have clarified the underlying cellular and molecular mechanisms...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34752707/the-cellular-and-molecular-basis-of-sour-taste
#54
REVIEW
Heather N Turner, Emily R Liman
Sour taste, the taste of acids, is one of the most enigmatic of the five basic taste qualities; its function is unclear and its receptor was until recently unknown. Sour tastes are transduced in taste buds on the tongue and palate epithelium by a subset of taste receptor cells, known as type III cells. Type III cells express a number of unique markers, which allow for their identification and manipulation. These cells respond to acid stimuli with action potentials and release neurotransmitters onto afferent nerve fibers, with cell bodies in geniculate and petrosal ganglia...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34724436/vaping-and-lung-inflammation-and-injury
#55
REVIEW
Jin-Ah Park, Laura E Crotty Alexander, David C Christiani
The use of electronic (e)-cigarettes was initially considered a beneficial solution to conventional cigarette smoking cessation. However, paradoxically, e-cigarette use is rapidly growing among nonsmokers, including youth and young adults. In 2019, this rapid growth resulted in an epidemic of hospitalizations and deaths of e-cigarette users (vapers) due to acute lung injury; this novel disease was termed e-cigarette or vaping use-associated lung injury (EVALI). Pathophysiologic mechanisms of EVALI likely involve cytotoxicity and neutrophilic inflammation caused by inhaled chemicals, but further details remain unknown...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34705481/sepsis-induced-immunosuppression
#56
REVIEW
Lisa K Torres, Peter Pickkers, Tom van der Poll
Sepsis is expected to have a substantial impact on public health and cost as its prevalence increases. Factors contributing to increased prevalence include a progressively aging population, advances in the use of immunomodulatory agents to treat a rising number of diseases, and immune-suppressing therapies in organ transplant recipients and cancer patients. It is now recognized that sepsis is associated with profound and sustained immunosuppression, which has been implicated as a predisposing factor in the increased susceptibility of patients to secondary infections and mortality...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34705480/%C3%AE-arrestins-as-important-regulators-of-glucose-and-energy-homeostasis
#57
REVIEW
Sai P Pydi, Luiz F Barella, Lu Zhu, Jaroslawna Meister, Mario Rossi, Jürgen Wess
β-Arrestin-1 and -2 (also known as arrestin-2 and -3, respectively) are ubiquitously expressed cytoplasmic proteins that dampen signaling through G protein-coupled receptors. However, β-arrestins can also act as signaling molecules in their own right. To investigate the potential metabolic roles of the two β-arrestins in modulating glucose and energy homeostasis, recent studies analyzed mutant mice that lacked or overexpressed β-arrestin-1 and/or -2 in distinct, metabolically important cell types. Metabolic analysis of these mutant mice clearly demonstrated that both β-arrestins play key roles in regulating the function of most of these cell types, resulting in striking changes in whole-body glucose and/or energy homeostasis...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34699268/mechanisms-underlying-calcium-nephrolithiasis
#58
REVIEW
R T Alexander, D G Fuster, H Dimke
Nephrolithiasis is a worldwide problem with increasing prevalence, enormous costs, and significant morbidity. Calcium-containing kidney stones are by far the most common kidney stones encountered in clinical practice, and thus, hypercalciuria is the greatest risk factor for kidney stone formation. Hypercalciuria can result from enhanced intestinal absorption, increased bone resorption, or altered renal tubular transport. Kidney stone formation is complex and driven by high concentrations of calcium-oxalate or calcium-phosphate in the urine...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34699267/cerebral-vascular-dysfunctions-detected-in-human-small-vessel-disease-and-implications-for-preclinical-studies
#59
REVIEW
Joanna M Wardlaw, Helene Benveniste, Anna Williams
Cerebral small vessel disease (SVD) is highly prevalent and a common cause of ischemic and hemorrhagic stroke and dementia, yet the pathophysiology is poorly understood. Its clinical expression is highly varied, and prognostic implications are frequently overlooked in clinics; thus, treatment is currently confined to vascular risk factor management. Traditionally, SVD is considered the small vessel equivalent of large artery stroke (occlusion, rupture), but data emerging from human neuroimaging and genetic studies refute this, instead showing microvessel endothelial dysfunction impacting on cell-cell interactions and leading to brain damage...
February 10, 2022: Annual Review of Physiology
https://read.qxmd.com/read/34637327/somatic-mosaicism-in-biology-and-disease
#60
REVIEW
Hayato Ogawa, Keita Horitani, Yasuhiro Izumiya, Soichi Sano
Contrary to earlier beliefs, every cell in the individual is genetically different due to somatic mutations. Consequently, tissues become a mixture of cells with distinct genomes, a phenomenon termed somatic mosaicism. Recent advances in genome sequencing technology have unveiled possible causes of mutations and how they shape the unique mutational landscape of the tissues. Moreover, the analysis of sequencing data in combination with clinical information has revealed the impacts of somatic mosaicism on disease processes...
February 10, 2022: Annual Review of Physiology
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