Stuart K. Calderwood connects Cell biology with Molecular biology in his research. Stuart K. Calderwood integrates Molecular biology and Cell biology in his studies. In his research, he undertakes multidisciplinary study on Gene and Secretion. He undertakes interdisciplinary study in the fields of Secretion and Gene through his works. He performs multidisciplinary study in Heat shock protein and Hsp27 in his work. The study of Hsp27 is intertwined with the study of Genetics in a number of ways. His work on Hsp90 expands to the thematically related Genetics. Stuart K. Calderwood undertakes interdisciplinary study in the fields of Hsp90 and Hsp70 through his works. While working on this project, Stuart K. Calderwood studies both Hsp70 and HSF1.
In most of his Cell biology studies, his work intersects topics such as Extracellular, Signal transduction and Intracellular. He connects Signal transduction with Heat shock protein in his research. He performs integrative study on Heat shock protein and Hsp90. His research brings together the fields of Cell biology and Intracellular. Stuart K. Calderwood combines Gene and Extracellular in his research. Stuart K. Calderwood performs multidisciplinary study in Biochemistry and Receptor in his work. He merges Receptor with Biochemistry in his research. He applies his multidisciplinary studies on Genetics and Cancer research in his research. He performs integrative study on Cancer research and Genetics.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
HSP70 stimulates cytokine production through a CD14-dependant pathway, demonstrating its dual role as a chaperone and cytokine.
Alexzander Asea;Stine-Kathrein Kraeft;Evelyn A. Kurt-Jones;Evelyn A. Kurt-Jones;Mary Ann Stevenson.
Nature Medicine (2000)
Novel signal transduction pathway utilized by extracellular HSP70: role of toll-like receptor (TLR) 2 and TLR4.
Alexzander Asea;Michael Rehli;Edith Kabingu;Jason A. Boch.
Journal of Biological Chemistry (2002)
Heat shock proteins in cancer: diagnostic, prognostic, predictive, and treatment implications
Daniel R. Ciocca;Stuart K. Calderwood;Stuart K. Calderwood.
Cell Stress & Chaperones (2005)
Heat shock proteins in cancer: chaperones of tumorigenesis
Stuart K. Calderwood;Stuart K. Calderwood;Abdul Khaleque;Douglas B. Sawyer;Daniel R. Ciocca.
Trends in Biochemical Sciences (2006)
Sequential Phosphorylation by Mitogen-activated Protein Kinase and Glycogen Synthase Kinase 3 Represses Transcriptional Activation by Heat Shock Factor-1
Boyang Chu;Fabrice Soncin;Brendan D. Price;Mary Ann Stevenson.
Journal of Biological Chemistry (1996)
Constitutive activation of IκB kinase α and NF-κB in prostate cancer cells is inhibited by ibuprofen
S T Palayoor;M Y Youmell;S K Calderwood;C N Coleman.
Extracellular heat shock proteins in cell signaling.
Stuart K. Calderwood;Salamatu S. Mambula;Philip J. Gray;Jimmy R. Theriault.
FEBS Letters (2007)
Heat Shock Protein 70 Is Secreted from Tumor Cells by a Nonclassical Pathway Involving Lysosomal Endosomes
Salamatu S. Mambula;Stuart K. Calderwood.
Journal of Immunology (2006)
Tumor-Derived Heat Shock Protein 70 Peptide Complexes Are Cross-Presented by Human Dendritic Cells
Elfriede Noessner;Robert Gastpar;Valeria Milani;Anna Brandl.
Journal of Immunology (2002)
The Shock of Aging: Molecular Chaperones and the Heat Shock Response in Longevity and Aging – A Mini-Review
Stuart K. Calderwood;Ayesha Murshid;Thomas Prince.
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: