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Georg F. Weber

From Wikipedia, the free encyclopedia
Georg F. Weber
Born1962 (age 61–62)
NationalityAmerican
Occupationoncologist
WebsiteUniversity of Cincinnati

Georg Franz Weber (born 1962) is a German-born oncologist, who has made substantial contributions to the exploration of metastasis by defining the physiologic role of metastasis genes as stress response genes and by discovering the interaction between the molecules osteopontin and CD44. While he continues to address fundamental questions, he is researching new venues of diagnosis and therapy of cancer dissemination.

Biography

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Georg F. Weber was educated in Erlangen, Germany. He then attended medical school at the University of Würzburg, Germany. In 1988, he graduated and also completed his doctoral thesis.

Early in his intellectual life (1981–1991), Weber wrote publications on chess and biomechanics. His medical career was initially focused on immunology, in particular on the regulation of host defenses through redox mechanisms. Among various phenomena, he identified signal transduction pathways inside T-lymphocytes that determine cell proliferation, programmed cell death, or immunosenescence.

At the turn of the year 1988/1989, Weber migrated to the United States. He worked at the Dana–Farber Cancer Institute, Harvard Medical School from 1990 through 1999. After a stint at Tufts University, he moved to the University of Cincinnati, where he is currently Professor at the College of Pharmacy and the Cancer Center.

Georg F. Weber has defined the genetic basis of metastasis formation as aberrant expression or splicing of a unique set of developmentally non-essential genes (stress response genes) that physiologically mediate the homing of immune system cells. He has characterized four functional components of gene expression in the core signature of metastasis. Specifically, his laboratory has studied the cytokine Osteopontin, which acts as a metastasis gene in multiple malignancies, including breast cancer. Based on the molecular mechanisms of Osteopontin induction and function in cancer metastasis, he has established key paradigms. Osteopontin and variant CD44 interact, and this is essential for metastasis by several types of cancer. Multiple Osteopontin splice variants are present in malignant, but not in benign human breast (and other) tumor cells. Metastasis genes support anchorage-independence in an autocrine fashion. In cancer cells, distinct signal transduction pathways to growth and invasiveness are activated by oncogenes.

Georg F. Weber is the author of multiple monographs, including textbooks on molecular oncology.[1][2]

In recent years, Weber has studied philosophical questions associated with complex systems research.[3][4] His main concern is to overcome dichotomies in how we describe the world. He has shown that the opposition between chance and necessity can be meaningfully replaced with degrees of complexity, which are amenable to measurement. Complex phenomena are explainable through their occupancy of conceptual space (dimensionality), the information evolution by the system, or the generated change in entropy. These features are all based on mutually overlapping algorithms, which express what was traditionally called the “random elements” of the occurrence.

References

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  1. ^ Weber, Georg F (2015). Molecular Therapies of Cancer. Switzerland: Springer. ISBN 978-3-319-13277-8.
  2. ^ Weber, Georg F (2007). Molecular Mechanisms of Cancer. Dordrecht, Netherlands: Springer. ISBN 978-1-4020-6015-1.
  3. ^ Weber, Georg Franz (2022). Progress and Social Justice – an Empirical Basis. MetaMol Publishing. ISBN 979-8837864940.
  4. ^ Weber, Georg Franz (2021). How Complexity Shapes the World. Cambridge, England: Cambridge Scholars Publishing. ISBN 978-1-5275-7187-7.
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