Bonnie F. Sloane mostly deals with Cathepsin B, Cathepsin S, Cathepsin, Cell biology and Cancer research. In his research, Annexin A2 is intimately related to Molecular biology, which falls under the overarching field of Cathepsin B. His Cathepsin S study deals with the bigger picture of Cathepsin D.
His biological study spans a wide range of topics, including Extracellular matrix, Cysteine and Proteolysis. His Cell biology research is multidisciplinary, incorporating perspectives in Proteases, Secretion, Cell culture and Angiogenesis. His Cancer research research includes themes of Immunohistochemistry and Metastasis.
Bonnie F. Sloane mainly investigates Cathepsin B, Cancer research, Molecular biology, Cathepsin and Cell biology. Much of his study explores Cathepsin B relationship to Cathepsin D. His Cancer research research is multidisciplinary, relying on both Cancer, Breast cancer, Metastasis and Pathology.
The Molecular biology study combines topics in areas such as Gene expression, Cystatin and Transfection. His research in Cathepsin intersects with topics in Cell culture, Cysteine and Secretion. His work carried out in the field of Cell biology brings together such families of science as Proteases, Protease and Proteolysis.
Cancer research, Tumor microenvironment, Breast cancer, Cancer and Metastasis are his primary areas of study. His Cancer research study combines topics from a wide range of disciplines, such as Immunohistochemistry, Immunology, Cancer cell, Phenotype and Breast carcinoma. The various areas that Bonnie F. Sloane examines in his Tumor microenvironment study include Cell type, Pathology, Inflammatory breast cancer, Cell biology and Myoepithelial cell.
His Cancer research includes elements of Protease and Live cell imaging. His research integrates issues of Proteases, Molecular biology, Cathepsin B and Paracrine signalling in his study of Metastasis. Bonnie F. Sloane interconnects Cathepsin D and Cysteine protease in the investigation of issues within Cathepsin B.
Bonnie F. Sloane mostly deals with Cancer research, Cathepsin B, Metastasis, Pathology and Breast cancer. His Cancer research research focuses on Cancer and how it connects with Protein degradation, Macrophage and Signal transduction. His Cathepsin B study combines topics in areas such as Carcinogenesis, Molecular biology, Cathepsin and Proteases.
His study focuses on the intersection of Metastasis and fields such as Immunology with connections in the field of Paracrine signalling. His work deals with themes such as Tumor microenvironment, Ductal carcinoma and Transdifferentiation, which intersect with Pathology. His Cathepsin C research incorporates themes from Cathepsin S, Cathepsin L1, Cathepsin E, Cathepsin A and Cathepsin H.
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Cysteine cathepsins: multifunctional enzymes in cancer
Mona Mostafa Mohamed;Bonnie F. Sloane.
Nature Reviews Cancer (2006)
Acidity generated by the tumor microenvironment drives local invasion
Veronica Estrella;Tingan Chen;Mark Lloyd;Jonathan Wojtkowiak.
Cancer Research (2013)
Unraveling the role of proteases in cancer.
Jennifer E Koblinski;Mamoun Ahram;Bonnie F Sloane.
Clinica Chimica Acta (2000)
Bicarbonate increases tumor pH and inhibits spontaneous metastases
Ian F. Robey;Brenda K. Baggett;Nathaniel D. Kirkpatrick;Denise J. Roe.
Cancer Research (2009)
Degradation of extracellular-matrix proteins by human cathepsin B from normal and tumour tissues.
M R Buck;D G Karustis;N A Day;K V Honn.
Biochemical Journal (1992)
Lysosomal cathepsin B: correlation with metastatic potential.
Bonnie F. Sloane;John R. Dunn;Kenneth V. Honn.
Pericellular pH Affects Distribution and Secretion of Cathepsin B in Malignant Cells
Jurij Rozhin;Mansoureh Sameni;Grace Ziegler;Bonnie F. Sloane.
Cancer Research (1994)
Cysteine cathepsins in human cancer.
Christopher Jedeszko;Bonnie F Sloane.
Biological Chemistry (2004)
Dynamic imaging of protease activity with fluorescently quenched activity-based probes
Galia Blum;Stefanie R Mullins;Kinneret Keren;Marko Fonovic;Marko Fonovic.
Nature Chemical Biology (2005)
Increased gelatinase A (MMP-2) and cathepsin B activity in invasive tumor regions of human colon cancer samples.
Michael R. Emmert-Buck;Mark J. Roth;Zhenping Zhuang;Elias Campo.
American Journal of Pathology (1994)
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