Yona Keisari

Yona Keisari (Hebrew: יונה קיסרי; born January 10, 1947) is an Israeli Immunologist and cancer researcher, professor emeritus at the Department of Microbiology and Clinical Immunology in the Faculty of Medical and Health Sciences, Tel Aviv University. An expert in the field of immunology of cancerous tumors, and co-founder of the radiotherapy company "Alpha Tau Medical".

Biography
Yona Keisari was born in a displaced persons camp in southern Germany, the son of Froim (Ephraim) and Miriam (née Bortman) Keyzerman, Holocaust survivors born in Bessarabia. Immigrated to Israel with his family in 1949.

After his elementary school studies he was invited to Jerusalem for the first class of the boarding school for outstanding students from around Israel, which later merged into the Mae Boyer High School. He did his military service in the Air Force.

Upon his release from the IDF in 1966, he began his studies for a master's degree in microbiology in a direct track at Tel Aviv University and completed them in 1971. Immediately after that he continued to study for a Ph.D. in this field, under the guidance of Prof. Isaac Witz. His doctoral thesis was submitted in 1976 and dealt with the study of the cancer microenvironment (Tumor Microenvironment).

In 1976-1978 he was a postdoctoral fellow at the National Cancer Institute of the United States at the NIH in Bethesda. Upon his return to Israel in 1979, he joined the faculty of the Faculty of Medicine as a lecturer. In 1983 he was appointed senior lecturer and in 1993 an associate professor. In 2002 he was appointed a full professor. Over the years he served as a visiting scientist at the The University of Texas M. D. Anderson Cancer Center, and universities in Italy and Germany.

Served as head of the Department of Human Microbiology in 1995-1997 and as head of the Department of Clinical Immunology and Microbiology in 2005-2007. In 2015 he retired, but continues active research at the university and mentoring research students.

Married since 1968 to Nava, and they are parents of three and grandparents of ten. Lives in Ramat Gan.

Research
Prof. Keisari is a co-author of 107 articles in scientific journals, ten review articles, five book chapters, edited six books and monographs and has eight patent applications. As a faculty member at the university, he engaged in basic and translational research in immunology and educated thousands of medical students in the field of immunology. He also mentored in his laboratory about 60 graduate students in medical sciences, as well as 10 research fellows and postdoctoral fellows.

His research is devoted to two main topics: the development of treatments that destroy cancerous tumors and the activation of the immune response, and innate immunity to lung infections.

Development of treatments that activate the immune response against the tumor
Keisari is one of the researchers who recognized at a relatively early stage the potential of destroying cancerous lesions in the body in order to activate the immune response against the tumor. This is an effect known as the Abscopal Effect.

He showed that the destruction of solid metastatic experimental tumors (tumor ablation) by physical means such as radioactive radiation, photodynamic therapy, or electrical therapy, can stimulate a specific and robust anti-tumor immune response. The enhancement of such responses by immunomanipulation can eradicate metastases. Since 1991, he has been working on developing treatment protocols for metastatic tumors using combinations of radiation, chemotherapy, and immunotherapy.

Intra-tumoral alpha radiation
Since 2003, Keisari has been involved in the development of a treatment for the destruction of malignant tumors by intra-tumoral alpha radiation. Keisari, together with his physicist colleague Prof. Itzhak Kelson and their students Dr. Lior Arazi and Dr. Tomer Cooks, developed a comprehensive treatment modality for cancer using radioactive needles in combination with boosting the activity of the immune system. The treatment, known as Diffusing alpha emitter Radiation Therapy (alpha DaRT) is based on needles loaded with radium-224. These needles are inserted into the tumors and release short-lived atoms that emit alpha particles. These atoms disperse in the tumor and spray it with extremely destructive alpha radiation. The treatment is unique in that it uses alpha radiation and is the only one of its kind in the world for the treatment of solid tumors. his treatment can be given in combination with immune system boosters or chemotherapy. Keisari's research showed that destruction of solid tumors with Alpha DaRT triggered anti-tumor immune reactivity which could be enhanced by immune manipulation.Thus, the treatment not only damages the primary cancer but causes the activation of specific immune components which kill metastatic cells that spread in the body, the ones that cause the death of 85% of cancer patients. The treatment was declared a breakthrough by the FDA. Kelson and Keisari together with Uzi Sofer and Amnon Gat participated in the establishment of a company called "Alpha Tau Medical" which distributes the treatment worldwide. Keisari serves as the Chief Scientific Officer of this company.

In Israel and around the world, patients with skin or head and neck squamous cell carcinoma tumors have been treated, and tumors were eradicated in patients who could not be treated by other means, mainly elderly patients. The treatment is currently given as part of clinical trials to patients in Israel, the United States, Canada, Japan, Italy, United Kingdom and France and will expand to other countries in the future.

Lung infections
His research on the innate immunity against lung infections was conducted in collaboration with the bacteriologist Prof. Itzhak Ofek and focused on the involvement of macrophages, surfactant proteins and defensins in the protection of the lungs against Klebsiella pneumonia infections. These studies emphasized the crucial role of macrophages in the protection of the lungs against this dangerous pathogen.

Additional research topics
Increasing the sensitivity of cancer tumor cells to alpha radiation.

Public Activity
In 2009, Keisari was a member of the executive committee that founded the Israeli Society for Cancer Research and served as its secretary (2011-2013) and then as its president (2013–2015). He is a member of seven national and international professional societies. He works extensively to promote cancer research in Israel and around the world and serves as a volunteer on national and international committees that work to fund scientific research. He serves as an editorial board member in nine scientific journals in the field of immunology and cancer research, and organized several international and national scientific conferences. Keisari was extensively involved in the promotion of science-oriented youth, television programs to promote science to the public, and volunteer lectures as part of the "Bashaar" association for students and graduates in the peripheral communities.

Awards and recognition

 * Eleanor Roosevelt International Cancer Fellowship, UICC.
 * Deutscher Akademischer Austauschdienst Fellowship, Fed. Rep. Germany
 * Roberts-Gutman Chair in Immunopharmacology (2010–2017)
 * President of the Israel Cancer Research Society (2013–2015)
 * Honorary citizen of the city of Ramat Gan (2021)

Selected Publications

 * Keisari, Y.,Witz, I.P.. The specific blocking of humoral immune cytolysis mediated by antitumor antibodies degraded by lysosomal enzymes of tumor origin. Eur. J. Immunol. 5: 790-795, 1975.


 * Pick, E., Y. Keisari. A simple colorimetric method for the measurement of hydrogen peroxide produced by cells in culture. J. Immunol. Methods 38: 161-170, 1980.


 * Flescher, E., P. Gonen, Y. Keisari. Oxidative burst dependent tumoricidal and tumorostatic activities of paraffin oil elicited mouse macrophages. J. Natl. Cancer Inst. 72: 1341-1347, 1984.


 * Malkin, R., E. Flescher, J. Lengy, Y. Keisari. On the interactions between macrophages and developmental stages of Schistosoma ansoni: the cytotoxic mechanism involved in macrophage mediated killing of schistosomula in vitro. Immunobiology 176: 63-72, 1987.


 * Dimri, R., L. Nissimov, Y. Keisari. Effect of human recombinant granulocyte-macrophage colony stimulating factor and IL-3 on the expression of surface markers of human monocyte derived macrophages in long term cultures. Lymphokine and Cytokine Res. 13: 239-245, 1994.


 * Ophir, R., G. Moalem, M. Pecht, M. Shashoua, G. Rashid, S. Ben-Efraim, N. Trainin, Y. Burstein, Y. Keisari. Thymic humoral factor (THF-gamma2) mediated reduction of pulmonary metastases and augmentation of immunocompetence in C57Bl mice bearing B16 melanoma. J. Immunother. 22: 103-113, 1999.


 * Blank, M., M. Mandel, G. Lavie, Y. Keisari. Tumoricidal effects of photodynamic therapy with hypericin in mice bearing highly invasive solid tumors. Oncol. Res. 12: 409-418; 2001.


 * Gannot, G., I. Gannot, H. Vered, A. Buchner, Y. Keisari. Increase in immune cell infiltration with progression of epithelial transformation from hyperkeratosis to dysplasia and towards carcinoma in the oral cavity. Brit. J. Cancer 86: 1444-1448; 2002.


 * Entin, I., A. Plotnikov, R. Korenstein, Y. Keisari. Tumor growth retardation, cure, and induction of anti-tumor immunity in B16 melanoma bearing mice by low electric field enhanced chemotherapy. Clin. Cancer Res. 9: 3190-3197, 2003.


 * Kostina E., Ofek I., Crouch E., Friedman R., Sirota L., Klinger G., Sahly H., Keisari Y. Noncapsulated K. pneumoniae bearing mannose-containing O-antigens are more rapidly eradicated from mouse lung, and trigger cytokine production by macrophages following opsonization with surfactant protein D. Infect. Immun. 73:8282-8290; 2005.


 * Cooks, T., Arazi, L., Efrati, M., Schmidt, M., Marshak, G., Kelson, I., Keisari, Y. Interstitial wires releasing diffusing alpha-emitters combined with chemotherapy improved local tumor control and survival in squamous cell carcinoma bearing mice. Cancer 115: 1791-1801; 2009.


 * Keisari, Y., Hochman, I., Confino, H., Korenstein, R., Kelson, I. Activation of local and systemic anti-tumor immune responses by ablation of solid tumors with intra-tumoral electrochemical or alpha radiation treatments. Cancer Immunol. Immunother. 63:1-9; 2014.


 * Confino, H., Hochman, I., Efrati, M., Schmidt, M., Umansky, V., Kelson, I., Keisari, Y. Tumor ablation by intratumoral Ra-224 loaded wires induce anti-tumor immunity against experimental metastatic tumors. Cancer Immunol. Immunother. 64:191-199; 2015.


 * Keisari Y. Tumor abolition and antitumor immunostimulation by physico-chemical tumor ablation. Frontiers Biosc. (Landmark edition), 22: 310-347, 2017.


 * Popovtzer, A., Rosenfeld, E., Mizrachi, A., Bellia, SR., Ben-Hur, R., Feliciani, G., Sarnelli, MA., Arazi, L., Deutch, L., Kelson, I., Keisari, Y. Initial Safety and Tumor Control Results from a “First-in-Human” Multicenter Prospective Trial Evaluating a Novel Alpha-Emitting adionuclide for the Treatment of Locally Advanced Recurrent Squamous Cell Carcinomas of the Skin and Head and Neck. Int. J. Rad. Oncol. Biol. &amp; Phys. 2020, 106, 571-578.


 * Keisari, Y., Kelson, I. The potentiation of anti-tumor immunity by tumor abolition with alpha particles, protons or carbon ion radiation and its enforcement by combination with immunoadjuvants or inhibitors of immune suppressor cells and check point molecules. Cells, 10, 228, 2021.


 * Keisari, Y., Kelson, I. Tumor ablation induced anti-tumor immunity: destruction of the tumor in situ with the aim to evoke a robust anti-tumor immune response. Cancer and metastasis Reviews. Published online 11.11.2023.