Deuterium-Depleted Water May Be Central to Metabolism
According to Seneff, it appears deuterium-depleted water plays a central, hitherto unappreciated role in metabolism, as your body has so many ways to create it. For example, deuterium-depleted water is created through:
• Fatty acid synthesis and metabolism — The enzymes that synthesize fatty acids incorporate hydrogen that is carried by NADPH. This hydrogen atom has been carefully selected to be assured not to be deuterium. Interestingly, lipoxygenase is a protein expressed during conditions of stress, and according to Seneff, it has the greatest ability to select protons over deuterons of any protein.
It is highly upregulated in severe COVID-19 infection. It appears the virus triggers an increase in lipoxygenase because the virus captures linoleic acid (LA) in pockets in the viral membrane. However, lipoxygenase is not a flavoprotein, and it also doesn’t bind heme — this makes it resistant to damage from glyphosate. So, its activation becomes an alternative pathway to fix the mitochondrial deuterium problem.
SARS-CoV-2 picks up the omega-6 LA as it crosses the cellular membrane, and the LA then triggers the production of lipoxygenase that modifies the LA into leukotrienes — signaling molecules that bring in damaging macrophages.
But deuterium-depleted water is also produced in this process, by yanking two hydrogen atoms out of the fat and combining them with oxygen to make water. Note that this is just yet another way that excess LA damages your body, but with an ulterior motive that we often fail to appreciate.
• Sterol synthesis and metabolism — including cholesterol, vitamin D, cortisol, and sex hormones.
• Aromatic amino acid derivatives — including melatonin and neurotransmitters such as dopamine and serotonin, as well as thyroid hormone.
“All these molecules that go through these complicated steps are all focused on delivering deuterium-depleted water to the mitochondria,” Seneff says. “I mean, it's an absolute obsession that the cell has.” She goes on to review how processes that may appear to have nothing but harmful effects are actually an effort to heal the body. This, for example, seems to be the case in COVID-19:
“I believe that whatever biology is doing, it's doing it for a good reason. There may be damage, but there's a good reason why you need that damage in order to survive long term. It's trying to fix a problem that's very serious, and that's what I think is happening with [SARS-CoV-2].
Not only does it induce this lipoxygenase, which produces deuterium-depleted water, it then creates this inflammatory environment, which brings in the platelets and the macrophages, the immune cells and the stem cells. All these are having a big party in there in all this fluid that's building up inside the lungs.
Meanwhile, it also increases the production of hyaluronic acid. Hyaluronic acid is able to trap deuterium-depleted water. It makes structured water. So, you get structured water inside the alveoli of the lungs, and then you get fluid water in the interstitial spaces.
The blood vessels are leaky, the capillaries are leaky. Everything's coming out of the capillaries into this interstitial space where there's this fluid water, and you've got this lipoxygenase making deuterium-depleted water.
So, you're producing this environment of deuterium-depleted water, inviting the macrophages to come in, and the platelets release their mitochondria … the stem cells also come in and release their mitochondria, and then macrophages sweep up the mitochondria — and all this is happening in the interstitial space in the lungs where the fluid is. This is why you cannot breathe. You're drowning.
Maybe one of the most important things platelets do is hang on to mitochondria that they can deliver to the macrophages under conditions of stress. So, what happens is all these mitochondria get released in that interstitial space, and the macrophages induce this macropinocytosis, where they actually sweep up the water and everything that's in it and bring it inside the macrophage, including the mitochondria.
It's actually been shown that platelets can release mitochondria into the environment, and macrophages can take them up and use them as perfectly functioning mitochondria. It's astonishing. So, what they're doing is restoring the mitochondrial health to the immune cells.”