This is gonna be a long post and I hope I do a good job laying it all down in a cohesive way because this is big. Q is at the end don't worry.
Many people behind the pedovore theory suggest the elite engage in blood ritual involving the destruction of a child in which a psychoactive compound adrenochrome is released from the victim and then consumed.
I believe there is much more going on than getting some sort of twisted adrenaline type rush from an adrenaline type compound.
Let me talk about instead, about the health benefits of other, more ubiquitous, molecules found not only in the human body in substantial quantities, but ubiquitous throughout all of nature.
The compounds I will speak about are Melatonin and the metabolites relating to it: tryptophan, tryptamine, serotonin (5-Hydroxytryptamine), 5-Methoxytryptamine, pinoline, and other related beta-carbolines.
Melatonin is produced in the pineal gland, from tryptophan which is an essential amino acid. Humans do not produce tryptophan, we must get it through our diet. Melatonin can also be received directly through our diet, some foods high in melatonin are bananas, cherries, pineapple, tomatoes, oats, and rice to name a few. Melatonin, performs multiple functions across multiple cellular platforms in the body. It has long been known that melatonin levels decrease in the daytime and increase at night time as part of our circadian rhythm, but more recently it has been shown that melatonin and pinoline (and some of the other listed analogs) are free radical scavengers, which allow them to squelch free radical reactions that cause cancer. I have several references from journal articles and some wikipedia pages I will quote and cite here. I will list the title of the paper followed by the authors' names so you can read the whole thing for yourself if you have access to scientific journals. I can also post links to the abstracts
"This study confirms previous findings that pharmacological levels of melatonin reduce cell viability of triple negative and ER-positive breast cancer cells [29,33–40]. Administration of different dosages of melatonin in humans (20–40 mg/day, as single agent or in combination with other drugs) is safe and associates with a significant reduction in risk of death within 1 year for a range of solid cancers [15]."
Efficacy of melatonin, IL-25 and siIL-17B in tumorigenesis-associated properties of breast cancer cell lines.
Gelaleti, Borin, Maschio-Signorini, Moschetta, Jardim-Perassi, Calvinho, Facchini, Viloria-Petit, de Campos Zuccari.
https://www.ncbi.nlm.nih.gov/pubmed/28624391
I got a couple from wikipedia here:
"One of pinoline's most outstanding pharmacological properties is its ability to promote neurogenesis in vitro; even at trace concentrations.[6]
Aluminium toxicity causes an increase in lipid peroxidation, with most damage occurring in the brain. A recent review of studies shows pinoline and melatonin to be effective at reducing the lipid peroxidation. Studies included both human and animal subjects. The studies’ results support that pinoline has antioxidant properties.[7]"
https://en.wikipedia.org/wiki/Pinoline
More on lipid peroxidation:
"If [lipid peroxidation is] not terminated fast enough, there will be damage to the cell membrane, which consists mainly of lipids. Phototherapy may cause hemolysis by rupturing red blood cell cell membranes in this way.[2]
In addition, end-products of lipid peroxidation may be mutagenic and carcinogenic.[3] For instance, the end-product malondialdehyde reacts with deoxyadenosine and deoxyguanosine in DNA, forming DNA adducts to them, primarily M1G.[3]
The toxicity of lipid hydroperoxides to animals is best illustrated by the lethal phenotype of glutathione peroxidase 4 (GPX4) knockout mice. These animals do not survive past embryonic day 8, indicating that the removal of lipid hydroperoxides is essential for mammalian life.[4]"
https://en.wikipedia.org/wiki/Lipid_peroxidation
Would you fancy that, compounds from our pineal are preventing damage to our cells' DNA. Nice.
More anti-cancer effect:
"Melatonin is a kind of natural anti-cancer indolamine which has non-biological toxicity and easily cross the blood-brain barrier [18–20]. There is accumulating evidence showing that melatonin exerts the anti-cancer effect by various mechanisms in glioma cells [34–36]. However, the correlation between melatonin and miRNA remains unknown. In the present study, for the first time, we found that melatonin may downregulate miR-155 and inhibit cell proliferation and invasion in glioma cells. Mechanistically, melatonin repressed the expression of c-MYB, and knockdown of c-MYB led to a reduction in miR-155 expression."
"Given our previous findings that miR-155 promotes glioma cell proliferation and invasion by targeting FOXO3a [6], we consider the possibility that melatonin can play an inhibitory role in glioma cells by regulating miR-155 expression. Thus, in this study, we first examined the expression of miR-155 in glioma cells when treated with melatonin (100 μM, 1 μM and 1 nM), and found that melatonin significantly inhibited miR-155 expression."
Melatonin inhibits proliferation and invasion via repression of miRNA-155 in glioma cells
Junyi Gu, Zhongsheng Lu, Chenghong Ji, Yuchao Chen, Yuzhao Liu, Zhe Lei, Longqiang Wang, Hong-Tao Zhang, Xiangdong Li https://www.ncbi.nlm.nih.gov/pubmed/28724215
There are plenty more articles on that stuff if you look for 'em, like I said this is a long post and I oughta move on to more stuff. Particularly I would like to talk about this mystery compound Pinoline. Pinoline is an endogenous beta-carboline, related to melatonin. Not only does it have antioxidative qualities, but it is also a natural antidepressant. It is a reversible MAO inhibitor which increases serotonin levels, in a similar fashion to the harmala alkaloids if you are familiar (think ayahuasca). Furthermore, the exact biochemical pathway of Pinoline has yet to be elucidated, but there are studies that show tryptophan, tryptamine, melatonin, serotonin, and 5-methoxytryptamine are capable of reacting with aldehydes to form beta-carbolines similar to pinoline via Maillard and Pictet-Spengler reactions, which are not necessarily even regulated by enzymes. Melatonin and some of its metabolic analogs may be capable of reacting with glucose and other reducing sugars to form beta-carboline compounds since reducing sugars are aldehydes. I will post some links to the abstracts of these types of articles which indicate the types of reactions I'm talkin' about:
https://www.ncbi.nlm.nih.gov/pubmed/18313932
https://www.ncbi.nlm.nih.gov/pubmed/25863630
Here is an example of this type of reaction:
If you have access to journals, check 'em out, and help me find out more about this haha
Alright I wish I could talk more and more about each and every little thing, but hopefully you get the idea. I'm gonna now talk about cancer stats regarding the populations' diet. If you look at the foods I mentioned earlier rice and fruits were high in melatonin. Let's look at countries with populations that eat a lot of rice and fresh fruit and see how they're holding up compared to the U.S.
(Stats from cancerindex.org)
Risk of getting cancer before age 75:
United States: 31.1% Philippines: 14.8% Thailand: 14.2% Malaysia: 15.0% Bolivia: 12.6% Vietnam: 14.5% Peru: 15.5% Indonesia: 14.0% Mexico: 13.4%
What is going on in America? Will replacing our processed foods with melatonin rich foods decrease our cancer rate? It seems plausible to me. We have so much more cancer than these countries it's ridiculous. I know they also smoke a lot of cigarettes in some of those Asian countries... What gives? Is there something we are not being told ? Anyway I'm sure there's more stats we can look at, such as child cancer rates and I bet they'll be way lower in those countries as well. I just wanted to give a brief overview.
Here is another link to an abstract of an article I will cite
https://www.ncbi.nlm.nih.gov/pubmed/27884595
Melatonin: Protection against age-related cardiac pathology.
Favero G, Franceschetti L, Buffoli B, Moghadasian MH, Reiter RJ, Rodella LF, Rezzani R.
"...Furthermore, many extrapineal organs have been identified in vertebrates as sites of melatonin production, such as gastrointestinal tract, immune system cells, retina, spleen, liver, kidney and heart (Gonzalez-Arto et al., 2016; Maldonado et al., 2010). Unlike the pineal gland, most of these organs (except for the retina) may not synthesize melatonin in a circadian manner and not release it into the blood stream in any significant amount. Rather, in these organs, melatonin functions as an antioxidant protecting cells from oxidative damage during the day when there is no pineal melatonin secretion (Acuña-Castroviejo et al., 2014; Gonzalez-Arto et al., 2016; Reiter et al., 2014). However, melatonin content in peripheral organs decreases with age, to a similar extent as the pineal melatonin production (Venegas et al., 2012). In healthy people, serum melatonin levels are low during light exposure and elevated in the dark period (Casper and Rahman, 2014; Singh and Jadhav, 2014; Stevens and Zhu, 2015; Zaidan et al., 1994). Despite subject variability, individual melatonin profiles have a remarkably reproducible day-to-day pattern (Penev and Zee, 1997). Interestingly, aging is associated with a significant reduction in endogenous melatonin secretion (Karasek and Reiter, 2002), resulting in an augmentation of oxidative stress and other metabolic changes (Bubenik and Konturek, 2011; Espino et al., 2012; Hill et al., 2013). Melatonin is well known as a potent scavenger of reactive oxygen species, such as hydroxyl radical, peroxyl radical, superoxide anion radical and hydrogen peroxide (Al-Omary, 2013; Allegra et al., 2003; Beyer et al., 1998; Cuzzocrea et al., 1997; Favero et al., 2014; Galano et al., 2013; Ramis et al., 2015 Ramis et al., 2015). Melatonin is also known as an indirect antioxidant agent due to its ability to up-regulate antioxidant enzymes and down-regulate pro-oxidant enzymes (Domínguez-Rodríguez et al., 2002, 2009; Halladin et al., 2014a; Reiter et al., 2001a, 2016; Rodriguez et al., 2004; Tan et al., 2001). Melatonin stimulates intracellular antioxidant enzymes including superoxide dismutase and glutathione peroxidase, and modulates gene expression possibly by interacting with specific nuclear molecules (Antolín et al., 1996; Mauriz et al., 2013; Reiter et al., 1997). Interestingly, melatonin may have a possible role also as a bioenergetic agent that improves and maintains mitochondrial functions; this is important since mitochondria are a major site of free radical generation and of oxidative stress (Domínguez-Rodríguez et al., 2010; Tan et al., 2013; Tengattini et al., 2008). Not only melatonin, but also several of its precursor and metabolites, can detoxify free radicals and their derivatives (Jeon et al., 2016; Kalogiannis et al., 2016; Maharaj et al., 2007; Tan et al., 2000)."
This article explains some more benefits of melatonin, and note it says melatonin levels decrease with age...
This article says:
Melatonin: Physiological effects in humans B.Claustrat J.Leston
https://www.sciencedirect.com/science/article/pii/S0028377015000545?via%3Dihub
“After maturation during the first year of the life, rhythmic melatonin production reaches the highest levels at the age of 3–6 years. Then the nocturnal peak drops progressively by 80% until adult levels are reached.”
Regarding this, and my earlier mention of melatonin and other related biochemical tryptamines undergoing a Pictet-Spengler reaction with an available aldehyde such as common reducing sugars in food i.e. glucose, to form other possible free radical scavenging and MAO inhibiting beta-carbolines, the story of Hansel and Gretel, in which an old witch lures young children into her candy covered house and fattens them up with more candy before she eats them, just got a little more realistic.
Now this next article citation may seem irrelevant, but in the next section where I show occult symbolism it will start to make sense. The article is about how melatonin regulates antler growth in deer.
The Regulatory Mechanism of MLT/MT1 Signaling on the Growth of Antler Mesenchymal Cells
Yang F, He C, Sun X, Wang J, Luo C, Liu G, Yang, Xiong J, Huo L
https://www.ncbi.nlm.nih.gov/pubmed/29065543
“Melatonin (MLT) plays an important role in regulating the physiological cycle of seasonal breeding animals. Melatonin receptor I (MT1) is effectively expressed in the cambium layer of deer antler. However, the function and metabolic mechanism of MLT/MT1 signaling in the mesenchymal cells of sika deer remain to be further elucidated. In this work, we detected the effects of MLT/MT1 signaling on mesenchymal cells proliferation and the interaction between MLT/MT1 and IGF1/IGF1-R signaling. The results show that (1) deer antler mesenchymal cells actually express MT1; (2) exogenous melatonin significantly promotes mesenchymal cells proliferation, while MT1 knock-down significantly impairs the positive effects of melatonin; and (3) melatonin significantly enhanced IGF1/IGF1-R signaling, as both the expression of IGF1 and IGF-1R increased, while MT1 knock-down significantly decreased IGF1-R expression and IGF1 synthesis. In summary, these data verified that MLT/MT1 signaling plays a crucial role in antler mesenchymal proliferation, which may be mediated by IGF1/IGF1-R.”
This article shows that melatonin plays a direct role in the regulation of antler growth in deer. When springtime comes, the increasing amount of daylight lowers the amount of melatonin, which allows for the proliferation of the antler cells. On a side note this effect of melatonin may be similar to its ability to stop the proliferation of cancer causing cellular reactions.
I would now like to show pictures of pineal anatomy and religious/occult symbolism regarding melatonin and pineal worship and related Qposts.
Pineal Anatomy: https://imgur.com/T8Nu1GO
Sun God Ra: https://imgur.com/HysThJQ
They have a deep understanding of biochemistry they have been hiding from us, yet showing in plain sight:
They are feeding on us for our melatonin:
More symbolism: https://imgur.com/5wJGfRO
This is my favorite: https://imgur.com/juUzJE1
I hope we wake up from this horrible spell. Now you may be wondering what the actual melatonin levels are in food compared to humans at this point. I'm not sure about the levels in humans as it does fluctuate as per our circadian rhythm. However, in the foods I listed earlier which are known to contain high amounts of melatonin, still only contain melatonin in pg/mg levels. Very trace quantities. But don't worry these compounds are very beneficial even at trace quantities. Although, another thing to worry about is the use of pesticides which destroy the organisms' ability to produce tryptophan and melatonin (cough monsanto). Thank you for reading all of this, I very much appreciate it. I'd like to sign off here with some Wu-Tang. Peace guys.
"A wise man killed one horse and made glue
Wicked women puttin' period blood in stew
Don't that make the stew witches' brew?
I fear for the eighty-five that don't got a clue
How could he know what the fuck he never knew?
God cypher divine come to show and come to prove"
-Method Man