Hier ein weiteres Email von Herrn Stocker an mich. Hier an dieses Email angehängt sind die Attachments (gezippt) :-)
Danke an Herrn Stocker dafür
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Guten Tag von STocker Josef!
Im Anhang einige neue Krebs-Bücher
und ich schätze Steintel
Meine pdf's können Sie veröffentlichen
Josef Stocker, 6113 WATTENBERG, Wattenberg 15 d
Österreich (Tirol) +43
Tel: Festnetz 05224-90948
mail:
[email protected] Meine Weisheiten: http://josef-stocker.de/
pdf-Dateien zum Drucken /stocker1.htm
Eine sehr interessante Homepage:
"The Theory Of Cancer"
http://www.new-cancer-treatments.org/Theory/CancerTheory.html R. Webster Kehr
Leseprobe: The Chain of Events That Cause Cancer
Combining this question with the many discoveries which relate microbes to cancer cells, leads to the following explanation:
1) Due to a weakened cell membrane, which can be caused by a carcinogen or many other things, a microbe is able to enter inside a normal cell (as Dr. Young stated, the microbe is pleomorphic and this can help the microbe get inside the cell which is still normal at this point),
(Note: the microbe(s) can also get inside a cell during the cell division of a cancer cell. For example, when a cancer cell, which already contains microbes, divides, there will likely be microbes in both cells which result from the cell division.)
2) The microbe, once inside, intercepts the glucose entering the cell (most microbes eat glucose),
3) The microbe excretes "mycotoxins," dangerous hormones and perhaps a thick slime (mycotoxins are the normal excretions of microbes),
4) Because 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),
5) The cell's mitochondria (which convert glucose into energy) get very little glucose because the microbe has intercepted most of the glucose,
6) What the cell's mitochondria does get is lots of mycotoxins and other harmful garbage, which it cannot convert into energy,
7) 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,
8 ) Signals are sent to the insulin receptors and glucose receptors on the cell membranes to grab more glucose,
9) More glucose enters the cell (about 15 times to 17 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 that enters the mitochondria, but without glucose there is less pyruvate.
10) Because there is a limit to how high the activity of these two types of receptors can become there is no way for the mitochondria (and thus the ATP) to get enough glucose/pyruvate and energy,
11) The cell is now officially cancerous because its energy level drops (the ATP energy levels can be compared to the steps of a ladder) and it is defined to be anaerobic.
In this process, two things happen. First, because of the microbe(s) the break in the Krebs Cycle and ETC are broken as long as the microbe(s) are inside the cell.
Second, each sick cancer cell contains very healthy microbes living inside!! Because the microbe(s) are healthy, and the cell is sick, it makes it very difficult to kill the microbe without killing the cell.
Summary
The bottom line in all of this is that the cell's mitochondria, instead of swimming in a sea of pyruvate (which is made from glucose), are swimming in a sea of highly acidic mycotoxins.
The microbes not only steal glucose (and thus pyruvate) from the mitochondria, they excrete highly acidic mycotoxins.
Thus, the ATP prodution in the mitochondria drops to virtually nothing. The cell is forced to survive by using fermentation which creates a very small amount of ATP energy.
The microbes also create a thick protein coating on the outside of the cells wall (which will be discussed next) which not only attracts glucose but also blocks oxygen.
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