scholarly article | Q13442814 |
P2093 | author name string | M A Febbraio | |
M Hargreaves | |||
P L Moseley | |||
A Garnham | |||
I Koukoulas | |||
R C Walsh | |||
P2860 | cites work | A role for a 70-kilodalton heat shock protein in lysosomal degradation of intracellular proteins | Q24339606 |
A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 | ||
Single-Step Method of RNA Isolation by Acid Guanidinium Thiocyanate–Phenol–Chloroform Extraction | Q25938986 | ||
Cells in stress: transcriptional activation of heat shock genes | Q28267155 | ||
Carbohydrate ingestion attenuates the increase in plasma interleukin-6, but not skeletal muscle interleukin-6 mRNA, during exercise in humans | Q28366249 | ||
Protein folding in the cell | Q29547792 | ||
Contrasting effects of NO and peroxynitrites on HSP70 expression and apoptosis in human monocytes | Q33845106 | ||
Exercise and the immune system: regulation, integration, and adaptation | Q33909390 | ||
Exercise, stress, and the immune conversation | Q33984793 | ||
Does muscle function and metabolism affect exercise performance in the heat? | Q34077192 | ||
Percutaneous needle biopsy of skeletal muscle in physiological and clinical research | Q34084383 | ||
Overexpression of the rat inducible 70-kD heat stress protein in a transgenic mouse increases the resistance of the heart to ischemic injury | Q34206249 | ||
Characterization of the thermotolerant cell. I. Effects on protein synthesis activity and the regulation of heat-shock protein 70 expression | Q36218354 | ||
In vivo and in vitro activation of T cells after administration of Ag-negative heat shock proteins | Q38920567 | ||
Can Hsp70 proteins act as force-generating motors? | Q40564149 | ||
Genetic aspects of the hsp70 multigene family in vertebrates | Q40648813 | ||
Heat shock protein 70 kDa: molecular biology, biochemistry, and physiology | Q40833247 | ||
Hsp70 expression in human skeletal muscle after exercise | Q40931518 | ||
Human 60-kDa heat-shock protein: a danger signal to the innate immune system | Q40964840 | ||
Transcriptional and translational regulation of heat shock proteins in leukocytes of endurance runners | Q42491512 | ||
Circulating monocytes are not the source of elevations in plasma IL-6 and TNF-alpha levels after prolonged running. | Q43540328 | ||
Reduced glycogen availability is associated with an elevation in HSP72 in contracting human skeletal muscle | Q43875696 | ||
HSP70 and other possible heat shock or oxidative stress proteins are induced in skeletal muscle, heart, and liver during exercise. | Q46043779 | ||
Exercising mammals synthesize stress proteins | Q46124522 | ||
HSP70 expression in the CNS in response to exercise and heat stress in rats | Q48477398 | ||
Detection of heat shock protein 70 (Hsp70) and anti-Hsp70 antibodies in the serum of normal individuals. | Q50853838 | ||
Heat shock protein 70 (Hsp70) stimulates proliferation and cytolytic activity of natural killer cells | Q61893857 | ||
Glycogen utilization in leg muscles of men during level and uphill running | Q68835631 | ||
Similar dose response of heat shock protein synthesis and intracellular pH change in yeast | Q69904222 | ||
Selective release from cultured mammalian cells of heat-shock (stress) proteins that resemble glia-axon transfer proteins | Q69948836 | ||
Synthesis of 70K stress protein by human leukocytes: effect of exercise in the heat | Q70129167 | ||
Biochemical characterization of the mammalian stress proteins and identification of two stress proteins as glucose- and Ca2+-ionophore-regulated proteins | Q70434456 | ||
The effects of glucose on protein synthesis and thermosensitivity in Chinese hamster ovary cells | Q71070790 | ||
Heat shock, deciliation and release from anoxia induce the synthesis of the same set of polypeptides in starved T. pyriformis | Q71520602 | ||
Heat shock protein studies in type 1 and type 2 diabetes and human islet cell culture | Q71731789 | ||
HSP70 induction during exercise and heat stress in rats: role of internal temperature | Q72492783 | ||
Effect of prolonged, submaximal exercise and carbohydrate ingestion on monocyte intracellular cytokine production in humans | Q73145027 | ||
Expression of stress proteins HSP 72 & HSP 32 in response to endotoxemia | Q73457410 | ||
HSP70 stimulates cytokine production through a CD14-dependant pathway, demonstrating its dual role as a chaperone and cytokine | Q73606601 | ||
HSP72 gene expression progressively increases in human skeletal muscle during prolonged, exhaustive exercise | Q74218049 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 386-93 | |
P577 | publication date | 2001-10-01 | |
P1433 | published in | Cell Stress & Chaperones | Q13458649 |
P1476 | title | Exercise increases serum Hsp72 in humans | |
P478 | volume | 6 |
Q60759375 | Aberrant redox signalling and stress response in age-related muscle decline: Role in inter- and intra-cellular signalling |
Q41985668 | Acute exercise boosts cell proliferation and the heat shock response in lymphocytes: correlation with cytokine production and extracellular-to-intracellular HSP70 ratio. |
Q46613310 | Adrenergic receptors mediate stress-induced elevations in extracellular Hsp72. |
Q35326458 | Antioxidant and anti-inflammatory effects of exercise in diabetic patients |
Q34446471 | Birth defects and anti-heat shock protein 70 antibodies in early pregnancy |
Q53188590 | Changes in lymphocyte HSP70 levels in women handball players throughout 1 year of training: the role of estrogen levels. |
Q35611634 | Chaperokine-induced signal transduction pathways. |
Q51025860 | Chronic probiotic supplementation with or without glutamine does not influence the eHsp72 response to a multi-day ultra-endurance exercise event. |
Q33838958 | Circulating heat shock protein 70 (HSPA1A) in normal and pathological pregnancies. |
Q34510413 | Commensal bacteria and MAMPs are necessary for stress-induced increases in IL-1β and IL-18 but not IL-6, IL-10 or MCP-1. |
Q36902232 | Cytosolic calcium transients are a determinant of contraction-induced HSP72 transcription in single skeletal muscle fibers. |
Q36093644 | Distinct Skeletal Muscle Gene Regulation from Active Contraction, Passive Vibration, and Whole Body Heat Stress in Humans. |
Q35854610 | Divergence of intracellular and extracellular HSP72 in type 2 diabetes: does fat matter? |
Q42473483 | Downhill running and exercise in hot environments increase leukocyte Hsp72 (HSPA1A) and Hsp90α (HSPC1) gene transcripts |
Q40245107 | Effect of blood handling on extracellular Hsp72 concentration after high-intensity exercise in humans. |
Q79774615 | Effect of caffeine supplementation on the extracellular heat shock protein 72 response to exercise |
Q47361578 | Effect of concentric or eccentric weight training on the expression of heat shock proteins in m. biceps brachii of very well trained males |
Q42515379 | Effect of heat acclimation on heat shock protein 72 and interleukin-10 in humans |
Q64260151 | Effect of herbal antioxidant-rich formula on improvement of antioxidant defense system and heat shock protein-70 expression in recreational female athletes: A randomized controlled trial |
Q42877945 | Effect of purple sweet potato leaves consumption on exercise-induced oxidative stress and IL-6 and HSP72 levels |
Q61805116 | Effects of High-Fat Diet on eHSP72 and Extra-to-Intracellular HSP70 Levels in Mice Submitted to Exercise under Exposure to Fine Particulate Matter |
Q33668046 | Effects of heat acclimation on changes in oxidative stress and inflammation caused by endurance capacity test in the heat |
Q39044783 | Elevated levels of extracellular heat-shock protein 72 (eHSP72) are positively correlated with insulin resistance in vivo and cause pancreatic β-cell dysfunction and death in vitro |
Q35164953 | Elevated serum levels of heat shock protein 70 can be detected after radiofrequency ablation |
Q36846699 | Elevation in heat shock protein 72 mRNA following contractions in isolated single skeletal muscle fibers |
Q51709364 | Elevation of body temperature is an essential factor for exercise-increased extracellular heat shock protein 72 level in rat plasma. |
Q36210031 | Endogenous extra-cellular heat shock protein 72: releasing signal(s) and function. |
Q40380318 | Enhanced expression of heat shock proteins in gradually dying cells and their release from necrotically dead cells |
Q26773005 | Exercise Modulates Oxidative Stress and Inflammation in Aging and Cardiovascular Diseases |
Q48129742 | Exercise Training under Exposure to Low Levels of Fine Particulate Matter: Effects on Heart Oxidative Stress and Extra-to-Intracellular HSP70 Ratio |
Q59326285 | Exercise induces hepatosplanchnic release of heat shock protein 72 in humans |
Q33716849 | Exercise induces the release of heat shock protein 72 from the human brain in vivo |
Q34487007 | Exercise preconditioning protects against spinal cord injury in rats by upregulating neuronal and astroglial heat shock protein 72. |
Q37144219 | Exercise training-induced changes in inflammatory mediators and heat shock proteins in young tennis players |
Q64105633 | Exercise-induced bronchoconstriction, temperature regulation and the role of heat shock proteins in non-asthmatic recreational marathon and half-marathon runners |
Q54719489 | Exercise-induced extracellular 72 kDa heat shock protein (Hsp72) stimulates neutrophil phagocytic and fungicidal capacities via TLR-2. |
Q36628536 | Exercising in environmental extremes : a greater threat to immune function? |
Q46876544 | Exogenous delivery of heat shock protein 70 increases lifespan in a mouse model of amyotrophic lateral sclerosis. |
Q42045263 | Exogenous heat shock protein 70 mediates sepsis manifestations and decreases the mortality rate in rats |
Q47446325 | Exosomes Mediate the Beneficial Effects of Exercise |
Q41001027 | Exosomes: A Rising Star in Falling Hearts |
Q51281637 | Extracellular Hsp70 Enhances Mesoangioblast Migration via an Autocrine Signaling Pathway. |
Q28299626 | Extracellular Hsp72 concentration relates to a minimum endogenous criteria during acute exercise-heat exposure |
Q35153907 | Extracellular heat shock proteins: a new location, a new function |
Q51674195 | Fine particulate matter potentiates type 2 diabetes development in high-fat diet-treated mice: stress response and extracellular to intracellular HSP70 ratio analysis. |
Q43966754 | Glucocorticoid receptor expression on circulating leukocytes in healthy and asthmatic adolescents in response to exercise |
Q33716811 | Glucose ingestion attenuates the exercise-induced increase in circulating heat shock protein 72 and heat shock protein 60 in humans |
Q37849717 | HSP70 expression: does it a novel fatigue signalling factor from immune system to the brain? |
Q57364783 | Heat Shock Protein Release and Naturally Occurring Exogenous Heat Shock Proteins |
Q42576131 | Heat and exercise acclimation increases intracellular levels of Hsp72 and inhibits exercise-induced increase in intracellular and plasma Hsp72 in humans. |
Q37246996 | Heat shock protein 72 response to exercise in humans |
Q42845134 | Heat shock protein 90 is a potential therapeutic target for ameliorating skeletal muscle abnormalities in Parkinson's disease |
Q38672562 | Heat shock proteins and exercise adaptations. Our knowledge thus far and the road still ahead |
Q40263946 | Heat shock proteins form part of a danger signal cascade in response to lipopolysaccharide and GroEL. |
Q37411519 | Heat shock proteins in diabetes and wound healing |
Q35623259 | Heat shock response and acute lung injury |
Q36161251 | Heat stress and cardiovascular, hormonal, and heat shock proteins in humans. |
Q36596703 | Heat-shock proteins: new keys to the development of cytoprotective therapies |
Q58601101 | Hepatokines-a novel group of exercise factors |
Q36373558 | Hospitalized dogs recovery from naturally occurring heatstroke; does serum heat shock protein 72 can provide prognostic biomarker? |
Q34427523 | Hsp-72, a candidate prognostic indicator of heatstroke |
Q33716877 | Hsp72 is present in plasma from Holstein-Friesian dairy cattle, and the concentration level is repeatable across days and age classes |
Q41604794 | Human resting extracellular heat shock protein 72 concentration decreases during the initial adaptation to exercise in a hot, humid environment |
Q59326288 | IL-6 activates HSP72 gene expression in human skeletal muscle |
Q33859138 | Immunohistochemical profiling of the heat shock response in obese non-diabetic subjects revealed impaired expression of heat shock proteins in the adipose tissue |
Q92553021 | Impacts of previous heatstroke history on physiological parameters eHSP72 and biomarkers of oxidative stress in military working dogs |
Q37308072 | Increased serum heat-shock protein 70 levels reflect systemic inflammation, oxidative stress and hepatocellular injury in preeclampsia |
Q37918537 | Induction and decay of short-term heat acclimation in moderately and highly trained athletes |
Q35616052 | Intercellular chaperone transmission via exosomes contributes to maintenance of protein homeostasis at the organismal level |
Q93614551 | Introducing Professor Nikki Holbrook, Stress Signaling and Aging Section Editor |
Q42144271 | Isolated hearts treated with skeletal muscle homogenates exhibit altered function. |
Q49050321 | Maternal exercise reduces hyperthermia-induced apoptosis in developing mouse brain |
Q57362586 | Measuring the secretion of heat shock proteins from cells |
Q40576690 | Modulation of rat monocyte/macrophage innate functions by increasing intensities of swimming exercise is associated with heat shock protein status. |
Q42519809 | Muscle fiber type-specific response of Hsp70 expression in human quadriceps following acute isometric exercise |
Q35580115 | New aspects of the hormone and cytokine response to training. |
Q47807793 | Nitric oxide-heat shock protein axis in menopausal hot flushes: neglected metabolic issues of chronic inflammatory diseases associated with deranged heat shock response. |
Q41833314 | No endogenous circadian rhythm in resting plasma Hsp72 concentration in humans. |
Q42703968 | Non-Exertional Heatstroke: A Case Report and Review of the Literature. |
Q37528136 | Novel pharmacological approaches to combat obesity and insulin resistance: targeting skeletal muscle with 'exercise mimetics'. |
Q58321470 | Passing the anaerobic threshold is associated with substantial changes in the gene expression profile in white blood cells |
Q37288545 | Pathology-dependent effects linked to small heat shock proteins expression: an update |
Q50052115 | Pathophysiology of heatstroke in dogs - revisited |
Q92028373 | Physical Exercise Inhibits Inflammation and Microglial Activation |
Q35817081 | Physical exercise induces rapid release of small extracellular vesicles into the circulation |
Q41770070 | Plasma Hsp72 (HSPA1A) and Hsp27 (HSPB1) expression under heat stress: influence of exercise intensity |
Q79787757 | Plasma Hsp72 is higher in runners with more serious symptoms of exertional heat illness |
Q35854605 | Plasma heat shock protein 72 as a biomarker of sarcopenia in elderly people |
Q35945620 | Psychoneuroimmunology: then and now. |
Q43875696 | Reduced glycogen availability is associated with an elevation in HSP72 in contracting human skeletal muscle |
Q42499423 | Role of Hsp72 and norepinephrine in the moderate exercise-induced stimulation of neutrophils' microbicide capacity. |
Q34577329 | Role of Toll-like receptor 2 and 4 signaling pathways on the inflammatory response to resistance training in elderly subjects |
Q38129942 | Role of exercise-induced reactive oxygen species in the modulation of heat shock protein response |
Q30473241 | Salivary Hsp72 does not track exercise stress and caffeine-stimulated plasma Hsp72 responses in humans |
Q36674101 | Salivary extracellular heat shock protein 70 (eHSP70) levels increase after 59 min of intense exercise and correlate with resting salivary secretory immunoglobulin A (SIgA) levels at rest |
Q42461858 | Scuba diving induces nitric oxide synthesis and the expression of inflammatory and regulatory genes of the immune response in neutrophils |
Q33716930 | Serum and lymphocyte levels of heat shock protein 70 in aging: a study in the normal Chinese population. |
Q87510032 | Short-term but not long-term hypoglycaemia enhances plasma levels and hepatic expression of HSP72 in insulin-treated rats: an effect associated with increased IL-6 levels but not with IL-10 or TNF-α |
Q35569056 | Stress proteins and initiation of immune response: chaperokine activity of hsp72. |
Q44706899 | Stress-induced facilitation of host response to bacterial challenge in F344 rats is dependent on extracellular heat shock protein 72 and independent of alpha beta T cells |
Q34569544 | The Anti-Inflammatory Actions of Exercise Training |
Q40987264 | The Hsp72 and Hsp90α mRNA Responses to Hot Downhill Running Are Reduced Following a Prior Bout of Hot Downhill Running, and Occur Concurrently within Leukocytes and the Vastus Lateralis |
Q35169987 | The chaperone balance hypothesis: the importance of the extracellular to intracellular HSP70 ratio to inflammation-driven type 2 diabetes, the effect of exercise, and the implications for clinical management |
Q38941251 | The discovery of Hsp70 domain with cell-penetrating activity |
Q42276954 | The effect of 15 consecutive days of heat-exercise acclimation on heat shock protein 70. |
Q47750360 | The effect of passive heating on heat shock protein 70 and interleukin-6: A possible treatment tool for metabolic diseases? |
Q42443019 | The effect of stress-inducible extracellular Hsp72 on human neutrophil chemotaxis: a role during acute intense exercise. |
Q81786265 | The effect of the rate of heat storage on serum heat shock protein 72 in humans |
Q37299294 | The exercise-induced stress response in skeletal muscle: failure during aging |
Q30380947 | The exercise-induced stress response of skeletal muscle, with specific emphasis on humans. |
Q30362411 | The oxidation of HSP70 is associated with functional impairment and lack of stimulatory capacity |
Q44495370 | Toll-like receptor 4 and CD14 mRNA expression are lower in resistive exercise-trained elderly women |
Q42460198 | Two years of combined high-intensity physical training and heat acclimatization affect lymphocyte and serum HSP70 in purebred military working dogs. |
Q39281019 | Unconventional Secretion of Heat Shock Proteins in Cancer |
Q42789104 | Vitamin C and e supplementation effects in professional soccer players under regular training |
Q43140247 | Wound healing from a cellular stress response perspective |
Q38548904 | eHSP70/iHSP70 and divergent functions on the challenge: effect of exercise and tissue specificity in response to stress |
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