nuclear hormone receptors Flashcards
describe the general structure of nuclear receptors
- N terminal
- activation function 1: modulatory
- dna binding domain. (consists of two zinc fingers that bind specific parts of DNA sequences)
- hinge region for flexibility
- ligand binding domain (binding of ligand activates or represses gene transcription. induces dimerization to allow leading to translocation into nucleus)
- activating function 2: modulatory (interacts with co-activators or repressors)
what do zinc fingers in the DBD consist of
P box which determines sequence specificity of receptor dna binding
D box for dimerization
zinc ion anchors receptor in specific location
what are the hormone response elements like for steroid and non steroid hormone receptors in DNA
steroid:
6-3-6 after 3 bases inverted palindrome of first 6
non steroid:
6-n-6 n is anywhere between 1-5
co activators required for gene transcription
what is the effect of Liver and retinoid x receptors in the absence of ligands on DNA and transcription.
corepressor proteins recruited
which interact with histone deactylases
deacetylation of lysines allows histones near hormone response element to be more compact, DNA tightly coiled
actively repressed transcription on target genes
what is the effect of Liver and retinoid x receptors in the presence of ligands on DNA and transcription.
co activator proteins recruited
histone lysine acetylation via histone acetyltransferases
acetylation allows histones near hormone response element to be capped. DNA unwinds.
actively enhanced transcription on target genes
what are the class 1 steroid hormone receptors and their characteristics
estrogen receptor alpha
estrogen receptor beta
androgen receptor
progesterone receptor
glucocorticoid receptor
mineralocorticoid receptor
needs ligands to promote gene treanscription
bound to chaperone proteins in cytoplasm
homo dimerized
describe the action of steroid hormones
the hydrophobic steroid hormone diffused across cell membrane
steroid hormone displaces the chaperone protein in cytoplasm
a homodimer is formed which crosses the nucleus membrane
the steroid hormone receptor dimer binds to the steroid response element upstream of the target gene.
this inhibits or initiates gene transcription
what are GR therapeutic uses
agonists used for asthma, topical anti-inflammatories, IBD, immunosuppression
ex: hydrocortisone, dexamethasone, prednisolone
what are MR therapeutic uses
agonists for adrenocortical insufficiency: fludrocortisone
antagonists for oedema: eplerenone
what are PR therapeutic uses
agonist oral contraceptive ex: norethisterone
antagonist emergency birth control ex: ulipristal and mifepristone
what are ER therapeutic uses
agonists hormone replacement therapy ex: estradiol
antagonists for breast cancer ex: tamoxifen (selective estrogen receptor modulator, antagonist in breast, agonist in bone (reduces osteoporosis maintains calcium levels.) inactive in uterus (increased risk of uterine cancer). could be due to co activator distribution or estrogen receptor subtypes)
what are AR (androgen) therapeutic uses
agonists for anemia, osteoporosis, weight gain ex: oxymetholone, testosterone
antagonists: prostate cancer ex: flutamide
what are SERDS
selective estrogen receptor degraders used in ER+ breast cancers. increases proteolysis of ER. decreased levels of receptor. more effective than SERMS)
ex: fluvestrant
what are characteristics of class 2 non steroid hormone receptors
includes thyroid hormone receptor, retinoic acid receptor, retinoid x receptors, ppar, vitamin D receptor (VDR).
ligand dependent and independent transcription
bound to co repressors in nucleus
homo and hetero dimers
describe non steroid nuclear hormone action
uptake of hydrophobic agonists by transporter proteins
movement of ligand to nucleus via binding proteins like FABP CRABP
binding proteins offload ligands into receptor hetero/homodimers formed
co repressor on heterodimers displaced by co activators
interactions with DNA and transcription factors lead to inhibition or initiation of gene transcription
