[Lotus]

Shh!, Vitamin D is a potent aromatase promoter.

Now that is interesting. In another thread I mentioned that I still seem to be experiencing NBE even though I have been off PM (and all other NBE herbs) for almost 3 months now. I am taking D3, however (just started about 6 weeks ago). I asked in that thread if maybe it was aromatase causing the NBE.

Could be...

Misty

I believe it, after we gain a therapeutic edge lol over total T we could be producing more E2 in our testes than the typical post-menopausal women, who produce mainly E1 in their peripheral tissues. And if all you took was a minor AA and an aromatase herb you could still maintain the "therapeutic edge" over GID, of course that's just my opinion, but I think we see/hear more and more evidence to support that hypothesis.

I believe DHEA at 25 to 50 mg increases estrogen level, (only after a threshold of estrogen is being produced). However, a woman taking this dose, will see her testosterone increase.

Epidermal growth factor (EGF) increases aromatase activity in adipose (fat) and up regulates cox 2 expression, also PGE2 (prostaglandin), which is done by GLA, gamma linoleic acid, like in evening primrose oil, above 3000mg which goes into AA (Arachidonic Acid), that's when it's gets dicey. It does look like forskolin does up regulate aromatase, but still risky spiking blood pressure.
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Prostaglandins can be synthesized in an adrenocortical carcinoma, and they can work in an autocrine or paracrine fashion. In rabbit chondrocyte and human squamous carcinoma cell lines, EGF induced the secretion of PGE2 via up-regulation of the activities of phospholipase A2 (PLA2) and COX-2 (Sato et al. 1997, Huh et al. 2003). This may suggest that PGE2 acts as a secondary factor to EGF in the up-regulation of aromatase expression. Therefore, we checked whether PGE2 was secreted from NCI-H295R cells in response to EGF. In this study, NCI-H295R cells secreted PGE2 in response to EGF (Fig. 13), and PGE2 increased aromatase activity to a greater extent than other prostaglandins (Fig. 6). The inhibition of EGF-induced aromatase expression with PGE2 receptor antagonists confirmed that PGE2 is the secondary factor of aromatase expression with EGF (Fig. 14). PGE1 also increased aromatase activity to a degree similar to that of PGE2, but EGF could not stimu- late NCI-H295R cells to secrete a sufficient concentration of PGE1 (data not shown) to increase aromatase activity. These results suggest that several prostaglandins are secreted in response to EGF, and that these prostaglandins evoke some intracellular signaling pathways. According to the experiments using several protein kinase inhibitors (Fig. 12), the intracellular signaling pathways that include MAP kinase, and calcium-calmodulin kinase are import- ant for up-regulation of aromatase by EGF. In response to EGF, EGF receptors (receptor-type tyrosine kinase) activate the MAP kinase pathway through phosphorylation of Ras protein. It is also well known that EGF receptors increase the intracellular calcium concentration. Therefore, it would be reasonable to conclude that inhibition of MAP kinase kinase and calcium-calmodulin kinase II down- regulate aromatase expression in NCI-H295R cells. Interestingly, a PKA inhibitor (H-89) down-regulated aromatase activity. This result suggests that the cAMP– PKA pathway is involved in the up-regulation of aromatase.

Effect of epidermal growth factor and prostaglandin on the expression of aromatase (CYP19) in human adrenocortical carcinoma cell line NCI-H295R cells

http://joe.endocrinology-journals.org/content/188/1/59.full