review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Elizabeth A Repasky | |
Sarah H Beachy | |||
Julie R Ostberg | |||
Baris E Dayanc | |||
P2860 | cites work | Activation of NK cells and T cells by NKG2D, a receptor for stress-inducible MICA | Q22010440 |
Cell stress-regulated human major histocompatibility complex class I gene expressed in gastrointestinal epithelium | Q24318429 | ||
NKp44, a novel triggering surface molecule specifically expressed by activated natural killer cells, is involved in non-major histocompatibility complex-restricted tumor cell lysis | Q24647094 | ||
Cell surface organization of stress-inducible proteins ULBP and MICA that stimulate human NK cells and T cells via NKG2D | Q24647598 | ||
NKG2D receptor-mediated NK cell function is regulated by inhibitory Ly49 receptors | Q37467935 | ||
Overexpression of Hsp25 in K1735 murine melanoma cells enhances susceptibility to natural killer cytotoxicity | Q37489795 | ||
Heat shock protein 70-reactivity is associated with increased cell surface density of CD94/CD56 on primary natural killer cells | Q39958463 | ||
Promoter region architecture and transcriptional regulation of the genes for the MHC class I-related chain A and B ligands of NKG2D. | Q40187314 | ||
Release of MICB molecules by tumor cells: mechanism and soluble MICB in sera of cancer patients | Q40280283 | ||
Hyperthermia suppresses the cytotoxicity of NK cells via down-regulation of perforin/granzyme B expression | Q40360226 | ||
Comparison of the anti-tumor effects of various whole-body hyperthermia protocols: correlation with HSP 70 expression and composition of splenic lymphocytes | Q40379012 | ||
Heat shock protein 70 surface-positive tumor exosomes stimulate migratory and cytolytic activity of natural killer cells | Q40408986 | ||
Modulation of the endocrine and immune systems by well-controlled hyperthermia equipment. | Q40444879 | ||
Fever-like temperature induces maturation of dendritic cells through induction of hsp90. | Q40552351 | ||
A phase I study of fever-range whole body hyperthermia (FR-WBH) in patients with advanced solid tumours: correlation with mouse models | Q40581761 | ||
The cell surface-localized heat shock protein 70 epitope TKD induces migration and cytolytic activity selectively in human NK cells. | Q40602103 | ||
Somatostatin attenuates the hyperthermia induced increase in neutrophil concentration | Q40642269 | ||
Distribution of HSP70, protein kinase C, and spectrin is altered in lymphocytes during a fever-like hyperthermia exposure | Q40649180 | ||
The size of the synaptic cleft and distinct distributions of filamentous actin, ezrin, CD43, and CD45 at activating and inhibitory human NK cell immune synapses | Q40665526 | ||
Costimulation of multiple NK cell activation receptors by NKG2D. | Q40702358 | ||
Mild hyperthermia modulates biological activities of interferons | Q40835809 | ||
Sensitivity of human natural killer cells to hyperthermia | Q40846940 | ||
Heat shock protein 72 (HSP72), a hyperthermia-inducible immunogenic determinant on leukemic K562 and Ewing's sarcoma cells. | Q41141857 | ||
Effects of in vivo hyperthermia on natural killer cell activity, in vitro proliferative responses and blood mononuclear cell subpopulations | Q41181926 | ||
Effects of heat shock on cytolysis mediated by NK cells, LAK cells, activated monocytes and TNFs alpha and beta | Q41224733 | ||
Spatial organization of signal transduction molecules in the NK cell immune synapses during MHC class I-regulated noncytolytic and cytolytic interactions. | Q43760121 | ||
Optimal timing and temperature for hyperthermic preconditioning in an animal model of fecal peritonitis | Q44078313 | ||
Changes in tumour oxygenation during fractionated hyperthermia and radiation therapy in spontaneous canine sarcomas | Q44867750 | ||
The nucleation and maintenance of heterochromatin by a histone deacetylase in fission yeast. | Q46772117 | ||
Patients with solid tumors treated with high-temperature whole body hyperthermia show a redistribution of naive/memory T-cell subtypes | Q46778114 | ||
Proteolytic release of soluble UL16-binding protein 2 from tumor cells | Q46970862 | ||
Experimental approaches for the treatment of murine B16 melanomas of various sizes. II: Injection of ethanol with combinations of beta-interferon and microwaval hyperthermia for B16 melanomas with a size of greater than 10 mm in diameter | Q47303885 | ||
Experimental approaches for the treatment of murine B16 melanomas of various sizes. I: Local injection of ethanol with a combination of interleukin-2 or microwaval hyperthermia for B16 melanomas with a size of less than 7 mm in diameter | Q47303896 | ||
Tumor cell apoptosis, lymphocyte recruitment and tumor vascular changes are induced by low temperature, long duration (fever-like) whole body hyperthermia | Q50158515 | ||
Augmentation of mouse natural killer cell activity by combined hyperthermia and streptococcal preparation, OK-432 (Picibanil) treatment. | Q50802756 | ||
Intratumoral injection of immature dendritic cells enhances antitumor effect of hyperthermia using magnetic nanoparticles. | Q51504570 | ||
T cell- and B cell-independent adaptive immunity mediated by natural killer cells. | Q51983250 | ||
The activating NKG2D ligand MHC class I-related chain A transfers from target cells to NK cells in a manner that allows functional consequences. | Q53567361 | ||
Increase of NKG2D ligands and sensitivity to NK cell-mediated cytotoxicity of tumor cells by heat shock and ionizing radiation. | Q53585434 | ||
Augmentation of MHC class I antigen presentation via heat shock protein expression by hyperthermia. | Q55473824 | ||
Cutting Edge: Down-Regulation of MICA on Human Tumors by Proteolytic Shedding | Q57257284 | ||
The human natural killer cell immune synapse | Q24656137 | ||
Identification and molecular characterization of NKp30, a novel triggering receptor involved in natural cytotoxicity mediated by human natural killer cells | Q24671834 | ||
In search of the 'missing self': MHC molecules and NK cell recognition | Q28250846 | ||
Structure and function of major histocompatibility complex (MHC) class I specific receptors expressed on human natural killer (NK) cells | Q28610389 | ||
The presence of malfolded proteins in the endoplasmic reticulum signals the induction of glucose-regulated proteins | Q29620170 | ||
Transfer of NKG2D and MICB at the cytotoxic NK cell immune synapse correlates with a reduction in NK cell cytotoxic function | Q30477811 | ||
Cell surface-bound heat shock protein 70 (Hsp70) mediates perforin-independent apoptosis by specific binding and uptake of granzyme B. | Q30967103 | ||
Natural killer cells in antiviral defense: function and regulation by innate cytokines | Q33652468 | ||
Natural killer cells: stress out, turn on, tune in. | Q33780775 | ||
The human natural cytotoxicity receptors (NCR) that induce HLA class I-independent NK cell triggering | Q33829839 | ||
A fresh look at tumor immunosurveillance and immunotherapy. | Q33940160 | ||
The role of the NKG2D immunoreceptor in immune cell activation and natural killing | Q34142062 | ||
Hyperthermia in oncology | Q34158847 | ||
NK cells, MHC class I molecules and the missing self | Q34592442 | ||
Survival benefit of hyperthermia in a prospective randomized trial of brachytherapy boost +/- hyperthermia for glioblastoma multiforme. | Q34744991 | ||
Hyperthermia in combined treatment of cancer | Q34766163 | ||
Variable receptors controlling activation and inhibition of NK cells | Q34786959 | ||
Physiological consequences of hyperthermia: heat, heat shock proteins and the immune response | Q35049390 | ||
Heat shock protein 70: role in antigen presentation and immune stimulation | Q35049403 | ||
Activation of natural killer cells by heat shock protein 70. | Q35049407 | ||
Fever. | Q35081480 | ||
Emerging evidence indicates that physiologically relevant thermal stress regulates dendritic cell function | Q36112068 | ||
Dynamic control of lymphocyte trafficking by fever-range thermal stress | Q36207312 | ||
Thermal stress-related modulation of tumor cell physiology and immune responses | Q36245293 | ||
Effects of thermal stress on tumor antigenicity and recognition by immune effector cells | Q36253170 | ||
Implications of increased tumor blood flow and oxygenation caused by mild temperature hyperthermia in tumor treatment | Q36336662 | ||
The heat shock response: role in radiation biology and cancer therapy | Q36336668 | ||
Re-setting the biologic rationale for thermal therapy | Q36336673 | ||
Interleukin (IL) 15 is a novel cytokine that activates human natural killer cells via components of the IL-2 receptor | Q36363861 | ||
A balance between positive and negative signals in cytotoxic lymphocytes regulates the polarization of lipid rafts during the development of cell-mediated killing | Q36375701 | ||
Cytokines as critical co-stimulatory molecules in modulating the immune response of natural killer cells | Q36391834 | ||
An essential role for tumor necrosis factor in natural killer cell-mediated tumor rejection in the peritoneum | Q36401729 | ||
Self-tolerance of natural killer cells | Q36518933 | ||
The role of hyperthermia in combined treatment in the management of soft tissue sarcoma. | Q36718639 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 41-56 | |
P577 | publication date | 2008-02-01 | |
P1433 | published in | International Journal of Hyperthermia | Q332272 |
P1476 | title | Dissecting the role of hyperthermia in natural killer cell mediated anti-tumor responses | |
P478 | volume | 24 |
Q37278338 | A microfluidic platform for studying the effects of small temperature gradients in an incubator environment |
Q36424012 | Antitumor effect and immune response induced by local hyperthermia in B16 murine melanoma: Effect of thermal dose |
Q38260733 | Antitumor immunity by magnetic nanoparticle-mediated hyperthermia |
Q50883487 | Biodistribution and Efficacy of Low Temperature-Sensitive Liposome Encapsulated Docetaxel Combined with Mild Hyperthermia in a Mouse Model of Prostate Cancer. |
Q36259387 | Chemoradiation combined with regional hyperthermia for advanced oesophageal cancer: a systematic review and meta-analysis |
Q82419986 | Combination of ionising irradiation and hyperthermia activates programmed apoptotic and necrotic cell death pathways in human colorectal carcinoma cells |
Q37564903 | Effect of a single finnish sauna session on white blood cell profile and cortisol levels in athletes and non-athletes. |
Q39117541 | Enhanced sensitivity of colon tumour cells to natural killer cell cytotoxicity after mild thermal stress is regulated through HSF1-mediated expression of MICA. |
Q52983148 | Enhanced tumour perfusion following treatment with water-filtered IR-A radiation to the thorax in a patient with head and neck cancer. |
Q34449535 | Feeling too hot or cold after breast cancer: is it just a nuisance or a potentially important prognostic factor? |
Q39624467 | Fever Therapy With Intravenously Applied Mistletoe Extracts for Cancer Patients: A Retrospective Study |
Q33710082 | Fever-range whole body thermotherapy combined with oxaliplatin: a curative regimen in a pre-clinical breast cancer model |
Q47697956 | Hyperthermia and irradiation of head and neck squamous cancer cells causes migratory profile changes of tumour infiltrating lymphocytes |
Q42619579 | Hyperthermia as adjunct to intravesical chemotherapy for bladder cancer. |
Q33686985 | Hyperthermia as an immunotherapy strategy for cancer |
Q47815383 | Hyperthermia classic commentary: Activation of natural killer (NK) cells by heat shock protein 70, Gabriele Multhoff, International Journal of Hyperthermia, 2002;18:576-585. |
Q37730085 | Hypoxia-driven immunosuppression: a new reason to use thermal therapy in the treatment of cancer? |
Q30530764 | Lysosomal rerouting of Hsp70 trafficking as a potential immune activating tool for targeting melanoma |
Q35637523 | Mild Heat Treatment Primes Human CD34(+) Cord Blood Cells for Migration Toward SDF-1α and Enhances Engraftment in an NSG Mouse Model |
Q48155911 | Molecular Genetic Analysis of Human Endometrial Mesenchymal Stem Cells That Survived Sublethal Heat Shock. |
Q38018117 | Old and new facts about hyperthermia-induced modulations of the immune system |
Q31070048 | Rationale of hyperthermia for radio(chemo)therapy and immune responses in patients with bladder cancer: Biological concepts, clinical data, interdisciplinary treatment decisions and biological tumour imaging. |
Q33876562 | Response of Local Nitric Oxide Release to Manual Acupuncture and Electrical Heat in Humans: Effects of Reinforcement Methods |
Q38035951 | Review of radiotherapy and hyperthermia in primary cervical cancer |
Q48310789 | Selecting patients for hyperthermia combined with preoperative chemoradiotherapy for locally advanced rectal cancer. |
Q42427640 | The dual role of NK cells in antitumor reactions triggered by ionizing radiation in combination with hyperthermia |
Q86551271 | The effect of thermochemotherapy with mitomycin C on normal bladder urothelium, an experimental study |
Q36750955 | Toward establishment of temperature thresholds for immunological impact of heat exposure in humans |
Q42844696 | Treatment of malignant glioma using hyperthermia |
Q37730088 | Tumour infiltrating host cells and their significance for hyperthermia. |
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