| review article | Q7318358 |
| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1040584520 |
| P356 | DOI | 10.2165/00007256-200838090-00002 |
| P698 | PubMed publication ID | 18712940 |
| P2093 | author name string | Pope Moseley | |
| Paulette Yamada | |||
| Suzanne Schneider | |||
| Fabiano Amorim | |||
| P2860 | cites work | Attenuated induction of heat shock gene expression in aging diploid fibroblasts | Q24339541 |
| Oxidants, antioxidants, and the degenerative diseases of aging | Q24561734 | ||
| Oxidants, oxidative stress and the biology of ageing | Q28131725 | ||
| Exercise increases serum Hsp72 in humans | Q28345140 | ||
| Tolerance, danger, and the extended family | Q29547532 | ||
| Heat shock protein 72 overexpression protects against hyperthermia, circulatory shock, and cerebral ischemia during heatstroke | Q31037296 | ||
| Human skeletal muscle HSP70 response to training in highly trained rowers | Q31935112 | ||
| Defining cellular senescence in IMR-90 cells: a flow cytometric analysis | Q33679727 | ||
| Glucose ingestion attenuates the exercise-induced increase in circulating heat shock protein 72 and heat shock protein 60 in humans | Q33716811 | ||
| Exercise induces the release of heat shock protein 72 from the human brain in vivo | Q33716849 | ||
| Natural adjuvants: endogenous activators of dendritic cells | Q33878894 | ||
| Changes in skeletal muscle heat shock proteins: pathological significance | Q33930403 | ||
| Exercise, stress, and the immune conversation | Q33984793 | ||
| Vitamin E and leukocyte-endothelial cell interactions | Q34159146 | ||
| Free radicals, exercise, apoptosis, and heat shock proteins. | Q34387053 | ||
| Heat shock proteins and heat adaptation of the whole organism | Q34447069 | ||
| Interactions between the heat shock response and the nuclear factor-kappa B signaling pathway | Q34487900 | ||
| Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance | Q34605740 | ||
| Time course of responses of human skeletal muscle to oxidative stress induced by nondamaging exercise | Q73446702 | ||
| HSP expression in human leukocytes is modulated by endurance exercise | Q73579406 | ||
| HSP70 stimulates cytokine production through a CD14-dependant pathway, demonstrating its dual role as a chaperone and cytokine | Q73606601 | ||
| Changes of HSP72-expression in leukocytes are associated with adaptation to exercise under conditions of high environmental temperature | Q73894227 | ||
| Molecular adaptations in human skeletal muscle to endurance training under simulated hypoxic conditions | Q74026351 | ||
| HSF1/hsp72 pathway as an endogenous anti-inflammatory system | Q74084964 | ||
| HSP70 and HSP90 expression in leucocytes after exercise in moderately trained humans | Q74167390 | ||
| HSP72 gene expression progressively increases in human skeletal muscle during prolonged, exhaustive exercise | Q74218049 | ||
| Mammalian Hsp70 and Hsp110 proteins bind to RNA motifs involved in mRNA stability | Q77841372 | ||
| Expression of the stress proteins, ubiquitin, heat shock protein 72, and myofibrillar protein content after 12 weeks of leg cycling in persons with spinal cord injury | Q78059155 | ||
| Estrogen attenuates HSP 72 expression in acutely exercised male rodents | Q78147791 | ||
| Plasma Hsp72 is higher in runners with more serious symptoms of exertional heat illness | Q79787757 | ||
| Leukocyte heat shock protein expression before and after intensified training | Q80810976 | ||
| Exercise intensity and duration affect blood soluble HSP72 | Q81288511 | ||
| Heat acclimation and HSP-72 expression in exercising humans | Q81320962 | ||
| Time course and differential responses of the major heat shock protein families in human skeletal muscle following acute nondamaging treadmill exercise | Q82973338 | ||
| Cell type-specific variations in the induction of hsp70 in human leukocytes by feverlike whole body hyperthermia. | Q35129922 | ||
| Comparison of the heat shock response in ethnically and ecologically different human populations | Q35987184 | ||
| Endogenous extra-cellular heat shock protein 72: releasing signal(s) and function. | Q36210031 | ||
| Immunostimulatory functions of membrane-bound and exported heat shock protein 70. | Q36356898 | ||
| Effects of 17beta-estradiol on cytokine-induced endothelial cell adhesion molecule expression | Q37356897 | ||
| Stress-induced heat shock protein 70 expression in adrenal cortex: an adrenocorticotropic hormone-sensitive, age-dependent response | Q37614929 | ||
| Oxidative injury and the heat shock response | Q37901024 | ||
| Effect of blood handling on extracellular Hsp72 concentration after high-intensity exercise in humans. | Q40245107 | ||
| Induction of heat shock proteins in B-cell exosomes. | Q40392853 | ||
| Exercise-heat acclimation in humans alters baseline levels and ex vivo heat inducibility of HSP72 and HSP90 in peripheral blood mononuclear cells | Q40435509 | ||
| Exosome-dependent trafficking of HSP70: a novel secretory pathway for cellular stress proteins | Q40436107 | ||
| Effect of heat stress on LPS-induced fever and tumor necrosis factor | Q40646084 | ||
| HSP70 as endogenous stimulus of the Toll/interleukin-1 receptor signal pathway | Q40751242 | ||
| Novel signal transduction pathway utilized by extracellular HSP70: role of toll-like receptor (TLR) 2 and TLR4. | Q40751982 | ||
| Hsp70 expression in human skeletal muscle after exercise | Q40931518 | ||
| Heat shock protein 72 on tumor cells: a recognition structure for natural killer cells | Q41114467 | ||
| The role of heat shock proteins in protection and pathophysiology of the arterial wall | Q41181626 | ||
| Involvement of ATP in the nuclear and nucleolar functions of the 70 kd heat shock protein | Q41429621 | ||
| Interaction between tumor necrosis factor-alpha and HSP 70 in human leukemia cells | Q41548538 | ||
| Heat stress regulates the human 70-kDa heat-shock gene through the 3'-untranslated region | Q41550832 | ||
| Heat-shock proteins protect cells from monocyte cytotoxicity: possible mechanism of self-protection | Q41581973 | ||
| Human resting extracellular heat shock protein 72 concentration decreases during the initial adaptation to exercise in a hot, humid environment | Q41604794 | ||
| Reduction in heat shock gene expression correlates with increased thermosensitivity in senescent human fibroblasts | Q41605983 | ||
| Progressive exercise preconditioning protects against circulatory shock during experimental heatstroke | Q42476978 | ||
| Transcriptional and translational regulation of heat shock proteins in leukocytes of endurance runners | Q42491512 | ||
| Effect of heat acclimation on heat shock protein 72 and interleukin-10 in humans | Q42515379 | ||
| Age-related attenuation in the expression of the major heat shock proteins in human peripheral lymphocytes | Q43496206 | ||
| In vitro studies show that Hsp70 can be released by glia and that exogenous Hsp70 can enhance neuronal stress tolerance | Q43751823 | ||
| Estrogen attenuates postexercise HSP70 expression in skeletal muscle | Q43852533 | ||
| beta-Adrenergic signaling and thyroid hormones affect HSP72 expression during heat acclimation | Q44031855 | ||
| Expression of the molecular chaperone Hsp70 in detergent-resistant microdomains correlates with its membrane delivery and release | Q44394452 | ||
| Effect of vitamin C supplements on antioxidant defence and stress proteins in human lymphocytes and skeletal muscle. | Q44401246 | ||
| Exercise‐induced HSP27, HSP70 and MAPK responses in human skeletal muscle | Q44416322 | ||
| Influence of different types of exercise on the expression of haem oxygenase-1 in leukocytes | Q44474279 | ||
| Vitamin E isoform-specific inhibition of the exercise-induced heat shock protein 72 expression in humans | Q44834214 | ||
| Estrogen and regulation of heat shock protein expression in female cardiomyocytes: cross-talk with NF kappa B signaling | Q44842107 | ||
| Cat exposure induces both intra- and extracellular Hsp72: the role of adrenal hormones | Q44953253 | ||
| Adrenergic receptors mediate stress-induced elevations in extracellular Hsp72. | Q46613310 | ||
| Mechanisms involved in the protective effect of estradiol-17beta on lipid peroxidation and DNA damage. | Q48016247 | ||
| Sexual dimorphism of the intracellular heat shock protein 72 response. | Q48543955 | ||
| The Drosophila hsp70 message is rapidly degraded at normal temperatures and stabilized by heat shock. | Q52460975 | ||
| The heat shock response is self-regulated at both the transcriptional and posttranscriptional levels. | Q52531533 | ||
| Acute heat stress protects rats against endotoxin shock | Q54260596 | ||
| Inverse response of leukocyte heat shock proteins and DNA damage to exercise and heat. | Q54737856 | ||
| Exercise induces hepatosplanchnic release of heat shock protein 72 in humans | Q59326285 | ||
| Age-related changes of heat shock protein gene transcription in human peripheral blood mononuclear cells | Q67988321 | ||
| Synthesis of 70K stress protein by human leukocytes: effect of exercise in the heat | Q70129167 | ||
| DNA damage after exhaustive treadmill running in trained and untrained men | Q71711789 | ||
| Differential effects of exercise and heat stress on liver HSP70 accumulation with aging | Q71802455 | ||
| HSP70 induction during exercise and heat stress in rats: role of internal temperature | Q72492783 | ||
| The antioxidant action of synthetic oestrogens involves decreased membrane fluidity: relevance to their potential use as anticancer and cardioprotective agents compared to tamoxifen? | Q72860823 | ||
| Regulation of Toll-like receptors in human monocytes and dendritic cells | Q73311834 | ||
| Attenuated stress responses in young and old human lymphocytes | Q73331292 | ||
| P433 | issue | 9 | |
| P304 | page(s) | 715-733 | |
| P577 | publication date | 2008-01-01 | |
| P1433 | published in | Sports Medicine | Q15762097 |
| P1476 | title | Heat shock protein 72 response to exercise in humans | |
| P478 | volume | 38 |
| Q37697679 | Benefits of exercise intervention in reducing neuropathic pain |
| Q90247545 | Chaperone-Based Therapeutic Target Innovation: Heat Shock Protein 70 (HSP70) for Type 2 Diabetes Mellitus |
| Q38733278 | Cross-Adaptation: Heat and Cold Adaptation to Improve Physiological and Cellular Responses to Hypoxia |
| Q36093644 | Distinct Skeletal Muscle Gene Regulation from Active Contraction, Passive Vibration, and Whole Body Heat Stress in Humans. |
| Q64883412 | Effects of different fluid replacements on serum HSP70 and lymphocyte DNA damage in college athletes during exercise at high ambient temperatures. |
| Q39502798 | Eleven days of moderate exercise and heat exposure induces acclimation without significant HSP70 and apoptosis responses of lymphocytes in college-aged males |
| Q34785065 | Exercise protects against doxorubicin-induced oxidative stress and proteolysis in skeletal muscle |
| Q40235882 | Extracellular and cellular Hsp72 differ as biomarkers in acute exercise/environmental stress and recovery |
| Q58601101 | Hepatokines-a novel group of exercise factors |
| Q41334385 | Human monocyte heat shock protein 72 responses to acute hypoxic exercise after 3 days of exercise heat acclimation. |
| Q45564312 | Increased iNOS, MMP-2, and HSP-72 in Skeletal Muscle Following High-Intensity Exercise Training |
| Q47952503 | Increasing heat storage by wearing extra clothing during upper body exercise up-regulates heat shock protein 70 but does not modify the cytokine response |
| Q47629173 | Influence of Rhodiola rosea on the heat acclimation process in young healthy men. |
| Q30981018 | Limitations to Thermoregulation and Acclimatization Challenge Human Adaptation to Global Warming |
| Q41985270 | Low-Intensity Pulsed Ultrasound Stimulation Enhances Heat-Shock Protein 90 and Mineralized Nodule Formation in Mouse Calvaria-Derived Osteoblasts |
| Q93147268 | Meta-Analysis of the Effect of Exercise on Neuropathic Pain Induced by Peripheral Nerve Injury in Rat Models |
| Q34031701 | Metabolic syndrome and insulin resistance: underlying causes and modification by exercise training |
| Q41770070 | Plasma Hsp72 (HSPA1A) and Hsp27 (HSPB1) expression under heat stress: influence of exercise intensity |
| Q38129942 | Role of exercise-induced reactive oxygen species in the modulation of heat shock protein response |
| Q39049004 | Short-term intense exercise training reduces stress markers and alters the transcriptional response to exercise in skeletal muscle. |
| Q34277356 | Single muscle fiber gene expression with run taper |
| Q53415123 | Sixteen weeks of resistance training decrease plasma heat shock protein 72 (eHSP72) and increase muscle mass without affecting high sensitivity inflammatory markers' levels in sarcopenic men. |
| Q47750360 | The effect of passive heating on heat shock protein 70 and interleukin-6: A possible treatment tool for metabolic diseases? |
Search more.