Intracellular Receptors (DP IB Biology)
Revision Note
Receptors Affecting Gene Expression
Eukaryotes use transcription factors to control gene expression
A transcription factor is a protein that controls the transcription of genes by binding to a specific region of DNA
If a gene is transcribed and translated then it is expressed in the cell or individual
Ligand activation of gene expression
Steroid hormones are small, hydrophobic, lipid-based hormones that can diffuse through the cell membrane and can pass directly into the nucleus through nuclear pores
Once inside the cell, they can bind to intracellular receptors
Steroid hormones such as testosterone, progesterone and oestradiol (also known as oestrogen) are ligands responsible for the expression of many genes within a cell
Oestradiol is involved in controlling the female fertility cycle and is also responsible for stimulating sperm production in males
Up to 100 different genes are controlled by oestradiol
The oestradiol stimulation pathway:
Oestradiol diffuses through the cell surface membrane into the cytoplasm
Oestradiol diffuses through a nuclear pore into the nucleus
Within the nucleus, oestradiol attaches to an ERα oestradiol receptor that is held within a protein complex, this causes the ERα oestradiol receptor to undergo a conformational change
The new shape of the ERα oestradiol receptor allows it to detach from the protein complex and diffuse towards the gene to be expressed
The ERα oestradiol receptor binds to a cofactor which enables it to bind to the promoter region of the gene, this stimulates RNA polymerase binding and gene transcription
The oestradiol stimulation pathway
Examiner Tips and Tricks
Note that the oestradiol stimulation pathway is given as an example of how steroid hormones can act as signalling chemicals. Progesterone and testosterone will follow a similar path by binding to and activating an intracellular receptor. The activated receptor will then bind to specific DNA sequences to stimulate gene transcription.
Effects of Oestradiol & Progesterone
Oestradiol
Oestradiol is a steroid hormone responsible for regulation of female sexual characteristics amongst other roles
It is produced in the ovaries, placenta and testes but is regulated by levels of other hormones released from the hypothalamus
Gonadotropin releasing hormone is first released from the hypothalamus
This stimulates the release of lutenising hormone (LH) and follicle stimulating hormone (FSH) from the pituitary gland
These hormones together are responsible for control of the menstrual cycle with target cells found in the uterus, breasts and bone marrow of females
Oestradiol can either inhibit or promote the release of gonadotropin-releasing hormone throughout the menstrual cycle which results in either a positive or negative feedback response
Progesterone
Progesterone is a steroid hormone responsible for the maintenance of the endometrial lining in preparation for implantation of a fertilised ovum and development of a foetus
Progesterone also prevents further ovulation during pregnancy
It is produced by the corpus luteum and placenta
On entering the cytoplasm of a target cell, progesterone forms a ligand-receptor complex, leading to expression of a range of genes
One example of a gene transcribed and translated as a result of progesterone is a growth factor which promotes cell proliferation required to continuously replenish the endometrial cells of the uterus
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