How Cancer Begins - The Exact Cause of Cancer Explained
A microbe is found in every cancer cell. Cancer microbes get into normal cells and their presence turns the normal cells into anaerobic cells (an anaerobic cell does not burn oxygen like a normal cell, rather it ferments glucose to get energy). The definition of an anaerobic cell is a "cancer cell." A Nobel Prize was given in 1931 (Otto Heinrich Warburg) for the discovery that a cancer cell is anaerobic.The microbe various, sometimes it is a virus, a fungus, a mould, acid-fast bacteria (which mutated into a fungus) or an amoeba (e.g. trichomonad).
Inside each cell are mitochondria. These mitochondria are where the energy of the cell is created, in the form of a molecule called ATP. The chemical process by which ATP are made start with what is called "The Krebs Cycle" or the "Citric Acid Cycle." This cycle of chemical reactions leads to the creation of ATP.
But as a spin-off of the Krebs Cycle, the Electron Transport Chain (ETC), creates even more ATP than the Krebs Cycle.
In a cancer cell, the Krebs Cycle is broken. Since the ETC is a spin-off of the Krebs Cycle, it is broken also. The result of breaking the Krebs Cycle is that the energy in the cell (i.e. the number of ATP molecules) drops dramatically.
The human cell is a very sophisticated living thing. When the Krebs Cycle is broken, the cell is generally able to fix the cycle, thus restoring the energy in the cell.
With a cancer cell, the cell is not able to restore its Krebs Cycle. Instead the broken Krebs Cycle and broken ETC are maintained.
So what possibly could maintain the break in the Krebs Cycle and ETC? What could make it impossible for the cell to fix itself month after month and year after year. The microbe, once inside, intercepts the glucose entering the cell (most microbes eat glucose). The microbe excretes "mycotoxins," dangerous hormones and perhaps a thick slime (mycotoxins are the normal excretions of microbes).
Mycotoxins are very, very acidic, the inside of the cell becomes highly acidic, which is a characteristic of cancer cells (in fact the longer a cell is cancerous, generally the more acidic it becomes). The cell's mitochondria (which convert glucose into energy) get very little glucose because the microbe has intercepted most of the glucose. What the cell's mitochondria does get is lots of mycotoxins and other harmful garbage, which it cannot convert into energy,
The mitochondria's energy level (ATP provides the key energy of a cell, but ATP is created by the Krebs Cycle and ETC) plummets because it is living in a sea of filth, meaning the ATP energy drops. Signals are sent to the insulin receptors and glucose receptors on the cell membranes to grab more glucose.
Glucose enters the cell (about 15 times more), but most of the glucose is intercepted by the microbe (which may be multiplying) and the mitochondria are bathing in an increasingly large sea of mycotoxins, dangerous hormones and possibly slime. Technically, the glucose is normally converted into pyruvate and it is the pyruvate than enters the mitochondria.
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