Otto Warburg Cell Physiologist Biochemist and Eccentric


Book Description

Warburg had the key to understanding Cancer and how to defeat it The book is easy to read and anyone can have the prime cause of cancer explained and action items available This biography of Otto Warburg by Sir Hans Krebs, one of Otto Warburg's proteges, and a fellow Nobel laureate, is far more an extended festschrift than a real biography. If you're looking for a short biography this book is for you.




Ravenous: Otto Warburg, the Nazis, and the Search for the Cancer-Diet Connection


Book Description

The extraordinary story of the Nazi-era scientific genius who discovered how cancer cells eat—and what it means for how we should. The Nobel laureate Otto Warburg—a cousin of the famous finance Warburgs—was widely regarded in his day as one of the most important biochemists of the twentieth century, a man whose research was integral to humanity’s understanding of cancer. He was also among the most despised figures in Nazi Germany. As a Jewish homosexual living openly with his male partner, Warburg represented all that the Third Reich abhorred. Yet Hitler and his top advisors dreaded cancer, and protected Warburg in the hope that he could cure it. In Ravenous, Sam Apple reclaims Otto Warburg as a forgotten, morally compromised genius who pursued cancer single-mindedly even as Europe disintegrated around him. While the vast majority of Jewish scientists fled Germany in the anxious years leading up to World War II, Warburg remained in Berlin, working under the watchful eye of the dictatorship. With the Nazis goose-stepping their way across Europe, systematically rounding up and murdering millions of Jews, Warburg awoke each morning in an elegant, antiques-filled home and rode horses with his partner, Jacob Heiss, before delving into his research at the Kaiser Wilhelm Society. Hitler and other Nazi leaders, Apple shows, were deeply troubled by skyrocketing cancer rates across the Western world, viewing cancer as an existential threat akin to Judaism or homosexuality. Ironically, they viewed Warburg as Germany’s best chance of survival. Setting Warburg’s work against an absorbing history of cancer science, Apple follows him as he arrives at his central belief that cancer is a problem of metabolism. Though Warburg’s metabolic approach to cancer was considered groundbreaking, his work was soon eclipsed in the early postwar era, after the discovery of the structure of DNA set off a search for the genetic origins of cancer. Remarkably, Warburg’s theory has undergone a resurgence in our own time, as scientists have begun to investigate the dangers of sugar and the link between obesity and cancer, finding that the way we eat can influence how cancer cells take up nutrients and grow. Rooting his revelations in extensive archival research as well as dozens of interviews with today’s leading cancer authorities, Apple demonstrates how Warburg’s midcentury work may well hold the secret to why cancer became so common in the modern world and how we can reverse the trend. A tale of scientific discovery, personal peril, and the race to end a disastrous disease, Ravenous would be the stuff of the most inventive fiction were it not, in fact, true.




Cancer and the Search for Selective Biochemical Inhibitors


Book Description

The world of medicine has become splintered into two factions, that of orthodoxy and its counterpart, alternative or complementary medicine. A problem with alternative medicine is, of course, that of anecdote and hearsay. The solution: the disclosure, in an unassailable fashion, of the underlying biochemical principles for alternative cancer therap




Frontiers of Cellular Bioenergetics


Book Description

1. The Mitochondrial and Bacterial Respiratory Chains: From MacMunn and Keilin to Current Concepts; P. Nicholls. 2. The Mitochondrial Enzymes of Oxidative Phosphorylation; Y. Hatefi. 3. Proton Pumps of Respiratory Chain Enzymes; S. Papa, et al. 4. Uncoupling of Respiration and Phosphorylation; V.P. Skulachev. 5. Crystallization, Structure, and Possible Mechanism of Action of Cytochrome c Oxidase from the Soil Bacterium Paracoccus denitrificans; M. Hartmut, et al. 6. The Structure of Crystalline Bovine Heart Cytochrome c Oxidase; S. Yoshikawa, et al. 7. Electron and Proton Transfer in.




From Physico-Theology to Bio-Technology


Book Description

For the last half century, Mikuláš Teich has made many eminent contributions to the histories of science, technology, medicine and society. His essentially Marxist historiographical stance has resisted the notion that science is an autonomous entity, and has instead stressed the interplay of the economic, the social and the scientific forces in history. At the same time, particularly in studies of biochemistry, he has emphasized the significance of the role of science and technology in modern economic change. In a career divided between Czechoslovakia and the UK, he has always been highly internationalist in his historical outlooks, combining what is valuable in Contentinal and British methods. This volume is to honour him on his eightieth birthday. Examining European developments since the sixteenth century, the essays, many by old friends and colleagues, cluster around themes close to his own personal scholarship and related to volumes which he has edited. The book is divided into sections on Questions of History; Scientific Lives; Disciplines; Natural History, and Science and Disease.







Cellular Respiration and Carcinogenesis


Book Description

Cellular Respiration and Carcinogenesis presents leading experts in the field as it informs the reader about both basic and recent research in the field of cellular respiration and the effects of its dysfunction, alteration or attenuation on the development of cancer. This masterfully compiled text offers the reader a fundamental understanding about how oxygen sensing and/or availability, programmed cell death, immune recognition and response and glucose metabolism are intimately linked with the two major mechanism or pathways of cellular respiration; oxidative phosphorylation and glycolysis. The editors and contributing authors proficiently and unequivocally address the effects of dysfunction of the mitochondrial oxidative phosphorylation/glycolysis (cellular respiration) mechanisms and pathways on the development of cancer. While it remains true that there are no universal truths in cancer, Cellular Respiration and Carcinogenesis opens the dialogue that the etiology of cancer can usually be associated with, and significantly attributed to the failure of one or multiple pathways of oxidative phosphorylation (cellular respiration) to normally burn fuel to generate energy, vis-à-vis the Warburg hypothesis. Keeping with its cutting-edge nature, Cellular Respiration and Carcinogenesis provides the first glimpse to a cautionary evidence based counterbalance to the recent and rapidly proliferating notion that utilization of fuel primarily via glycolysis is a hallmark of cancer development.




Cancer as a Metabolic Disease


Book Description

The book addresses controversies related to the origins of cancer and provides solutions to cancer management and prevention. It expands upon Otto Warburg's well-known theory that all cancer is a disease of energy metabolism. However, Warburg did not link his theory to the "hallmarks of cancer" and thus his theory was discredited. This book aims to provide evidence, through case studies, that cancer is primarily a metabolic disease requring metabolic solutions for its management and prevention. Support for this position is derived from critical assessment of current cancer theories. Brain cancer case studies are presented as a proof of principle for metabolic solutions to disease management, but similarities are drawn to other types of cancer, including breast and colon, due to the same cellular mutations that they demonstrate.




A Conceptual History of Modern Embryology


Book Description

"Glory to the science of embryology!" So Johannes Holtfreter closed his letter to this editor when he granted permission to publish his article in this volume. And glory there is: glory in the phenomenon of animals developing their complex morphologies from fertilized eggs, and glory in the efforts of a relatively small group of scientists to understand these wonderful events. Embryology is unique among the biological disciplines, for it denies the hegemony of the adult and sees value (indeed, more value) in the stages that lead up to the fully developed organism. It seeks the origin, and not merely the maintenance, of the body. And if embryology is the study of the embryo as seen over time, the history of embryology is a second-order derivative, seeing how the study of embryos changes over time. As Jane Oppenheimer pointed out, "Sci ence, like life itself, indeed like history, itself, is a historical phenomenon. It can build itself only out of its past. " Thus, there are several ways in which embryology and the history of embryology are similar. Each takes a current stage of a developing entity and seeks to explain the paths that brought it to its present condition. Indeed, embryology used to be called Entwicklungsgeschichte, the developmental history of the organism. Both embryology and its history interpret the interplay between internal factors and external agents in the causation of new processes and events.