Byron E. Wilson scite author profile

At optimal growth pH (3.0) Thiobacillus acidophilus maintained an internal pH of 5.6 (ApH of 2.6 units) and a membrane potential (A&*) of some +73 mV, corresponding to a proton motive force (Ap) of -83 mV. The internal pH remained poised at this value through external pH values of 1 to 5, so that the ApH increased with decreasing external pH. The positive A4 increased linearly with ApH: above a ApH of 0.6 units, some 60% of the increase in ApH was

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Cell-surface changes associated with transformation of human hepatocytes to the malignant phenotype.

Wilson

Öztürk

Takahashi

et al. 1988

Proc. Natl. Acad. Sci. U.S.A.

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Hepatocellular carcinoma is one of the leading causes of cancer death in the world. To understand the cellular changes associated with transformation of hepatocytes to the malignant state, we have made several libraries of monoclonal antibodies against the hepatocellular carcinoma cell line FOCUS and have found six antibodies (AF-20, SF-25, SF-31, SF-90, XF-4, and XF-8) that recognize antigens expressed at consistently higher levels on hepatoma cells. We have studied malignant and nontransformed liver tissue from the same individual by using direct 125I-labeled antibody binding and immunoperoxidase staining techniques. For each of these antibodies, we found striking increases in antigen expression on the transformed tissues. These antigens were found to be expressed throughout the tumor and on distant metastases, with little, if any, expression on the nontransformed adjacent liver. These antibodies demonstrate that hepatic transformation may be accompanied by stereotyped and predictable antigenic changes. The uniformity of such antigenic changes suggests an association between these cell-surface alterations and the malignant transformation process.

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Specific targeting of human hepatocellular carcinoma cells by immunoliposomes in vitro

Moradpour

Compagnon

Wilson

et al. 1995

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The monoclonal antibody AF-20 was raised against the human hepatocellular carcinoma (HCC) cell line FOCUS and binds with high affinity to a rapidly internalized 180-kd homodimeric glycoprotein that is abundantly expressed on the surface of human HCC and other human cancer cell lines. Immunoliposomes were produced by covalently coupling AF-20 to liposomes containing carboxyfluorescein. Interaction of immunoliposomes with various HCC cell lines in vitro was quantitatively assessed by flow cytometry and qualitatively analyzed by fluorescence microscopy. Liposomes bearing an isotype-matched nonrelevant monoclonal antibody (MAb) and cell lines not expressing AF-20 antigen served as controls. AF-20-immunoliposomes specifically bound to HCC and other human cancer cell lines expressing the AF-20 antigen and were rapidly internalized at 37 degrees C. Interaction of AF-20-conjugated liposomes with these cell lines was between 5 and 200 times greater than that of unconjugated liposomes, whereas no difference was observed between control liposomes bearing a nonrelevant antibody and unconjugated liposomes. Specificity of liposome-target cell interaction was confirmed by competitive inhibition assays. Kinetic analysis showed rapid association of AF-20 immunoliposomes with target cells, with saturation conditions being reached after 60 minutes. We conclude that the MAb AF-20 directs highly efficient, specific, and rapid targeting of immunoliposomes to human HCC and other human cancer cell lines in vitro. This targeted liposomal delivery system represents a promising approach for the development of immunotargeted diagnosis and therapy strategies against HCC.

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Byron E. Wilson

Induction of bcl-2 Expression by Phosphorylated CREB Proteins during B-Cell Activation and Rescue from Apoptosis

Proton motive force and the physiological basis of delta pH maintenance in thiobacillus acidophilus

Cell-surface changes associated with transformation of human hepatocytes to the malignant phenotype.

Specific targeting of human hepatocellular carcinoma cells by immunoliposomes in vitro

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