Transcript Steroids: Estrogens, Synthetic Estrogens, Estrogen Antagonists
CHEM-5398 April 1, 2010
Background: Steroids overview, etc History Estrogen Synthetic Estrogens Estrogen Antagonists/SERMs Progesterone Synthetic Progestins Hormone Replacement Therapy (HRT) Future Research…
Steroid hormones are all derived from cholesterol Cholesterol contains cyclopentanophenanthrene ring Estrogen and progestins are just two of the many steroids found in the human body
Cholesterol
Mechanism: - Modulate gene expression inside cell - They are not water-soluble so travel in blood attached to protein carriers - When they reach the cell, they dissociate from protein carrier and enter membrane - Some bind to a receptor in the cytoplasm and move in to the nucleus
Mechanism (ctd) - Hormone binding activates receptor protein and now both can bind specific regions of DNA called HRE (Hormone Response Elements)
Video
Ovarian and Menstrual cycles and the contraceptives link
1926: Loewe and Lange discovered that a female sex hormone varied throughout menstrual cycle.
1928: Zondek reported excretion of estrogen during pregnancy.
In 1929 Adolf Butenandt and Edward Adelbert Doisy independently isolated and determined the structure of estrogen.
The first orally effective estrogen, Emmenin, was derived from the late-pregnancy urine of Canadian women, and was introduced in 1930
Function as the primary female sex hormones Present in both men and women Promote development of female secondary sex characteristics Stimulate endometrial and uterine growth Reduce bone resorption, increase bone formation
Fun fact: Estrus = fertile, gen = to generate in Latin Three major types of natural estrogens
Estrone (E1) Estradiol (E2) Most common!
Estriol (E3)
From menarche to menopause the primary estrogen is 17β-estradiol Estradiol is produced from testosterone
Estrogens act as signaling molecules by interacting with specific target cells.
› Include tissues of the breast, uterus, brain, heart, liver, and bone.
These target cells have estrogen receptors. › There are two estrogen receptors that are normally found in the cell’s nucleus: ER α and ER β .
The receptor undergoes dimerization in order for it to have increased affinity for DNA.
This estrogen-receptor complex can now bind to specific DNA sites, called estrogen response elements (EREs).
Genes are activated to produce messenger RNA, which guide the synthesis of new proteins, determined by the cell type.
Menopause
Transition period in a woman's life when her ovaries stop producing eggs, her body produces less estrogen and progesterone, and menstruation becomes less frequent Symptoms are mood swings, hot flashes and vaginal dryness
Can by synthesized from plants or biological organisms like horses Examples include Synthroid or Quinestrol
Synthroid Quinestrol
Estrogen Antagonists/SERMs
Estrogen antagonists are proteins that block the actions of estrogen by binding to estrogen receptors As a result, estrogen can not bind Example: Evista/Raloxifene
SERMs
Selective Estrogen Receptor Modulators Because Estrogen receptors differ slightly in different organs, SERMs can target receptors of a certain organ So a SERM that blocks estrogen’s effects in breast cells won’t impact estrogen binding in the uterus!
Tamoxifen
Uses of SERMs..
Used before or after menopause Can help in slowing metastasis of cancer Can treat osteoporosis Advantage: specificity Yet to find a SERM that has no negative side effect (delte this: both mentioned cause colon cancer)
Progesterone/Progestins
Progesterone (
p
regn-
4
-ene 3,20-dione)
History
1935: Progesterone is discovered and named 1938: first orally active progestin is synthesized in Germany 1950s: More viable oral progestin synthesized in Mexico City by Miramontes; approved in US
Progesterone
Involved in female menstrual cycle, supports pregnancy, and embryogenesis in the womb Synthesis: Cholesterol Pregnenolone Progesterone
Progestins
Most frequent uses: Contraception and endometrial hyperplasia Enovid/Norethynodrel: contraceptive
Progestin antagonists
When these bind receptors, they produce a delay in endometrial maturation and postpone the appearance of the implantation window Therefore, used to terminate pregnancies
Mifepristone
PRMs – Progesterone receptor modulators (contraceptives)
Hormone Replacement Therapy (HRT)
Estrogen + progestins or either!
Medical treatment for menopausal or post-menopausal women Progestins keep weight off and stop cell proliferation Benefits of estrogen: › › › Reduction in loss of bone mass (osteoporosis) Decreased risk of cardiovascular disease Positive effect on cognitive function
Modes of HRT
Combination: - Pills and patch Estrogen: - Pills, patch, cream Progestins - Pills, vaginal gels, IUDs
Combination HRTs
Pills: Prempro Patches: CombiPatch
Patches vs. Pills
Different routes of administration = different side effects Pills 2x likely to cause blood clots than patches
Estrogen HRTs
Pills: Estrace Patches: Vivelle-dot Cream*: Dienestrol Dangers of Estrogen Video Dienestrol
Progestin HRTs
Pills: Prometrium IUDs: Mirena (levonorgestrel) Lasts up to 5 years
Negative effects of HRT
Mayo Clinic Research on HRT risks
In the largest clinical trial to date, the combination estrogen-progestin (Prempro) increased the risk of certain serious conditions. According to the study, over one year, 10,000 women taking estrogen plus progestin might experience:
- Seven more cases of heart disease than women taking a placebo - Eight more cases of breast cancer than women taking a placebo - Eight more cases of stroke than women taking a placebo - Eighteen more cases of blood clots than women taking a placebo
Future research…
How testosterone and estrogen work together to control male dimorphic behaviors in rats (UCSF) Alzheimer’s Disease and estrogen after menopause
Assigned Reading:
Goodman and Gilman’s Pharmacological Basis of Therapeutics pp. 1541and 1548-1568. Large Print Only
Homework Questions: 1 What is a SERM? What are SERMs used for? Draw the structure of tamoxifen.
2 What is Combipatch and how is it used? Draw the structures of the two ingredients and list the general classes of molecules to which each of these two ingredients belongs.
Sources
The Pharmacological Basis of Therapeutics by Goodman and Gilman “Progesterone vs Progestin” by Dr. Steven Hotze “Perspective: Female Steroid Hormone Action” by Dr. Orla Conneely General, Sascha; Terebesi, Ildiko; Bracht, Stefan; Funke, Adrian. Progestin -containing drug delivery system. PCT Int. Appl. (2010), 77pp.
Daniels, Rolf. Estrogen drug delivery systems. Pharmazie in Unserer Zeit (2004), 33(5), 392-397.
Simmons, Horst Ernest. The Side Effects
of Estrogen Drug Therapy: Contraception and
Postmenopause. (1979), 92 pp.