Thomas Kolbe, Caroline Lassnig, Andrea Poelzl, Rupert Palme, Kerstin E. Auer & Thomas Rülicke. (2022) Effect of Different Ambient Temperatures on Reproductive Outcome and Stress Level of Lactating Females in Two Mouse Strains. Animals 12:16, pages 2141.
Crossref
Alva Presbitero, Valentin R. Melnikov, Valeria V. Krzhizhanovskaya & Peter M. A. Sloot. (2021) A unifying model to estimate the effect of heat stress in the human innate immunity during physical activities. Scientific Reports 11:1.
Crossref
Paul J. Jacobs, M.K. Oosthuizen, C. Mitchell, J.D. Blount & N.C. Bennett. (2021) Oxidative stress in response to heat stress in wild caught Namaqua rock mice, Micaelamys namaquensis. Journal of Thermal Biology 98, pages 102958.
Crossref
Paul J. Jacobs, M. K. Oosthuizen, C. Mitchell, Jonathan D. Blount & Nigel C. Bennett. (2020) Heat and dehydration induced oxidative damage and antioxidant defenses following incubator heat stress and a simulated heat wave in wild caught four-striped field mice Rhabdomys dilectus. PLOS ONE 15:11, pages e0242279.
Crossref
Ryo Higuchi-Sanabria, Phillip Andrew Frankino, Joseph West PaulIIIIII, Sarah Uhlein Tronnes & Andrew Dillin. (2018) A Futile Battle? Protein Quality Control and the Stress of Aging. Developmental Cell 44:2, pages 139-163.
Crossref
Michelle M. Appenheimer & Sharon S. Evans. 2018. Thermoregulation: From Basic Neuroscience to Clinical Neurology Part I. Thermoregulation: From Basic Neuroscience to Clinical Neurology Part I
397
415
.
Audrey Glory & Diana A. Averill-Bates. (2016) The antioxidant transcription factor Nrf2 contributes to the protective effect of mild thermotolerance (40 °C) against heat shock-induced apoptosis. Free Radical Biology and Medicine 99, pages 485-497.
Crossref
Natik Piri, Jacky M.K. Kwong, Lei Gu & Joseph Caprioli. (2016) Heat shock proteins in the retina: Focus on HSP70 and alpha crystallins in ganglion cell survival. Progress in Retinal and Eye Research 52, pages 22-46.
Crossref
Edmund K. LeGrand & Judy D. Day. (2016) Self-harm to preferentially harm the pathogens within: non-specific stressors in innate immunity. Proceedings of the Royal Society B: Biological Sciences 283:1828, pages 20160266.
Crossref
Daming Zuo, John Subjeck & Xiang-Yang Wang. (2016) Unfolding the Role of Large Heat Shock Proteins: New Insights and Therapeutic Implications. Frontiers in Immunology 7.
Crossref
Gustav van Niekerk, Ashwin W. Isaacs, Theo Nell & Anna-Mart Engelbrecht. (2016) Sickness-Associated Anorexia: Mother Nature’s Idea of Immunonutrition?. Mediators of Inflammation 2016, pages 1-12.
Crossref
Keishi Tanigawa, Yusuke Ito & Yasunobu Kobayashi. 2016. Hyperthermic Oncology from Bench to Bedside. Hyperthermic Oncology from Bench to Bedside
329
340
.
Sharon S. Evans, Elizabeth A. Repasky & Daniel T. Fisher. (2015) Fever and the thermal regulation of immunity: the immune system feels the heat. Nature Reviews Immunology 15:6, pages 335-349.
Crossref
J M K Kwong, L Gu, N Nassiri, V Bekerman, R Kumar-Singh, K D Rhee, X-J Yang, W W Hauswirth, J Caprioli & N Piri. (2014) AAV-mediated and pharmacological induction of Hsp70 expression stimulates survival of retinal ganglion cells following axonal injury. Gene Therapy 22:2, pages 138-145.
Crossref
Yasunobu Kobayashi, Yusuke Ito, Valentina V. Ostapenko, Mayuko Sakai, Norimasa Matsushita, Kenichiro Imai, Koichi Shimizu, Atsushi Aruga & Keishi Tanigawa. (2014) Fever-range whole-body heat treatment stimulates antigen-specific T-cell responses in humans. Immunology Letters 162:1, pages 256-261.
Crossref
Libo Li, Tiran Zhang, Li Zhou, Li Zhou, Guihua Xing, Yuhang Chen & Yabing Xin. (2014)
Schisandrin
B
attenuates acetaminophen‐induced hepatic injury through heat‐shock protein 27 and 70 in mice
. Journal of Gastroenterology and Hepatology 29:3, pages 640-647.
Crossref
Jeffrey D. Hasday, Christopher Thompson & Ishwar S. Singh. 2011. Comprehensive Physiology. Comprehensive Physiology
109
148
.
Myung-Gyu Kim, Eun Jung Cho, Jae Won Lee, Yoon Sook Ko, Hee Young Lee, Sang-Kyung Jo, Won Yong Cho & Hyoung Kyu Kim. (2014) The heat-shock protein-70–induced renoprotective effect is partially mediated by CD4 + CD25 + Foxp3 + regulatory T cells in ischemia/reperfusion-induced acute kidney injury. Kidney International 85:1, pages 62-71.
Crossref
Yessica L. Allegretti, Constanza Bondar, Luciana Guzman, Eduardo Cueto Rua, Nestor Chopita, Mercedes Fuertes, Norberto W. Zwirner & Fernando G. Chirdo. (2013) Broad MICA/B Expression in the Small Bowel Mucosa: A Link between Cellular Stress and Celiac Disease. PLoS ONE 8:9, pages e73658.
Crossref
W. van Eden. (2012) Immune Recognition of Heat Shock Proteins Provides a Molecular Basis for the “Hygiene Hypothesis” Linking High Prevalence of Immune Disorders to Lack of Cell Stress Eliciting Events. ISRN Immunology 2012, pages 1-13.
Crossref
Edmund Kenwood LeGrand & Joe Alcock. (2012) Turning Up The Heat: Immune Brinksmanship In The Acute-phase Response. The Quarterly Review of Biology 87:1, pages 3-18.
Crossref
Changxin Huang, Jiangang Zhao, Zhaoyang Li, Da Li, Dajing Xia, Qingqing Wang & Hongchuan Jin. (2010) Multi-chaperone-peptide-rich mixture from colo-carcinoma cells elicits potent anticancer immunity. Cancer Epidemiology 34:4, pages 494-500.
Crossref
Yan Hou, Huailing Wei, Yuan Luo & Gengtao Liu. (2010) Modulating expression of brain heat shock proteins by estrogen in ovariectomized mice model of aging. Experimental Gerontology 45:5, pages 323-330.
Crossref
Adrienne J. Peer, Melissa J. Grimm, Evan R. Zynda & Elizabeth A. Repasky. (2009) Diverse immune mechanisms may contribute to the survival benefit seen in cancer patients receiving hyperthermia. Immunologic Research 46:1-3, pages 137-154.
Crossref
Mohan E. Tulapurkar, Benedict E. Asiegbu, Ishwar S. Singh & Jeffrey D. Hasday. (2009) Hyperthermia in the febrile range induces HSP72 expression proportional to exposure temperature but not to HSF-1 DNA-binding activity in human lung epithelial A549 cells. Cell Stress and Chaperones 14:5, pages 499-508.
Crossref
Ishwar S. Singh, Nirav G. Shah, Eid Almutairy & Jeffrey D. Hasday. 2010. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease. Prokaryotic and Eukaryotic Heat Shock Proteins in Infectious Disease
1
31
.
Ahmed BettaiebDiana A. Averill-Bates. (2008) Thermotolerance induced at a fever temperature of 40 °C protects cells against hyperthermia-induced apoptosis mediated by death receptor signalling. Biochemistry and Cell Biology 86:6, pages 521-538.
Crossref
Reiner Oberbeck, Hanno Deckert, Jörg Bangen, Phillip Kobbe & Daniel Schmitz. (2007) Dehydroepiandrosterone: a modulator of cellular immunity and heat shock protein 70 production during polymicrobial sepsis. Intensive Care Medicine 33:12, pages 2207-2213.
Crossref
Lotte Wieten, Femke Broere, Ruurd van der Zee, Elles Klein Koerkamp, Josée Wagenaar & Willem van Eden. (2007) Cell stress induced HSP are targets of regulatory T cells: A role for HSP inducing compounds as anti‐inflammatory immuno‐modulators?. FEBS Letters 581:19, pages 3716-3722.
Crossref
Matthew A. Buccellato, Thomas Carsillo, Zachary Traylor & Michael Oglesbee. 2007. Neurobiology of Hyperthermia. Neurobiology of Hyperthermia
395
415
.
Annette Dieing, Olaf Ahlers, Bert Hildebrandt, Thoralf Kerner, Ingo Tamm, Kurt Possinger & Peter Wust. 2007. Neurobiology of Hyperthermia. Neurobiology of Hyperthermia
137
152
.
Willem Van Eden. 2007. Heat Shock Proteins: Potent Mediators of Inflammation and Immunity. Heat Shock Proteins: Potent Mediators of Inflammation and Immunity
289
308
.
Emily J. Noonan, Robert F. Place, Reza J. Rasoulpour, Charles Giardina & Lawrence E. Hightower. (2006) Cell number‐dependent regulation of Hsp70B′ expression: Evidence of an extracellular regulator. Journal of Cellular Physiology 210:1, pages 201-211.
Crossref
M. Nickerson, S. L. Kennedy, J. D. Johnson & M. Fleshner. (2006) Sexual dimorphism of the intracellular heat shock protein 72 response. Journal of Applied Physiology 101:2, pages 566-575.
Crossref
Kenneth R. Diller. (2006) STRESS PROTEIN EXPRESSION KINETICS. Annual Review of Biomedical Engineering 8:1, pages 403-424.
Crossref
Julie R. Ostberg & Elizabeth A. Repasky. (2005) Emerging evidence indicates that physiologically relevant thermal stress regulates dendritic cell function. Cancer Immunology, Immunotherapy 55:3, pages 292-298.
Crossref
Gian Franco Baronzio & E. Dieter HagerGian Franco Baronzio, Roberta Delia Seta, Mario D’Amico, Attilio Baronzio, Isabel Freitas, Giorgio Forzenigo, Alberto Gramaglia & E. Dieter Hager. 2006. Hyperthermia in Cancer Treatment: A Primer. Hyperthermia in Cancer Treatment: A Primer
247
275
.
R.G. Ahmed .. (2005) The Relation between Biological Consequences and High Temperature in Mammals. International Journal of Zoological Research 2:1, pages 48-59.
Crossref
Penelope Rice, Erica Martin, Ju-Ren He, Mariah Frank, Louis DeTolla, Lisa Hester, Timothy O’Neill, Cheu Manka, Ivor Benjamin, Ashish Nagarsekar, Ishwar Singh & Jeffrey D. Hasday. (2005) Febrile-Range Hyperthermia Augments Neutrophil Accumulation and Enhances Lung Injury in Experimental Gram-Negative Bacterial Pneumonia. The Journal of Immunology 174:6, pages 3676-3685.
Crossref
Willem van Eden. (2005) Immunoregulatory T-Cell Response to Heat Shock Proteins and Suppression of Experimental Autoimmunity. Transfusion Medicine and Hemotherapy 32:6, pages 400-409.
Crossref
Jeffrey D. Hasday, Allen Garrison, Ishwar S. Singh, Theodore Standiford, Garrettson S. Ellis, Srinivas Rao, Ju-Ren He, Penny Rice, Mariah Frank, Simeon E. Goldblum & Rose M. Viscardi. (2003) Febrile-Range Hyperthermia Augments Pulmonary Neutrophil Recruitment and Amplifies Pulmonary Oxygen Toxicity. The American Journal of Pathology 162:6, pages 2005-2017.
Crossref