1. Receptors Functions and Signal Transduction- L4- L5
Faisal I. Mohammed, MD, PhD
University of Jordan 1

2. Tyrosine Kinase Receptors:
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4. Receptors superfamilies: Ionotropic receptors (ligand-gated channels)
Metabotropic receptors (G protein-coupled receptors)
Tyrosine Kinase
Almost all neurotransmitters discovered so far have more than one kind of receptor -- called receptor subtypes.
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5. Epinephrine Can Act Through Two 2nd Messenger Systems
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6. Lipid-soluble Hormones1
Lipid-soluble
hormone
diffuses into cell
Blood capillary
Activated
receptor-hormone
complex alters
gene expression
Nucleus
Receptor
mRNA
Newly formed
mRNA directs
synthesis of
specific proteins
on ribosomes
DNA
Cytosol
Target cell
New proteins alter
cell's activity
Transport
protein
Free hormone
Ribosome
New 2 3 4 1
Lipid-soluble
hormone
diffuses into cell
Blood capillary
Activated
receptor-hormone
complex alters
gene expression
Nucleus
Receptor
mRNA
Newly formed
mRNA directs
synthesis of
specific proteins
on ribosomes
DNA
Cytosol
Target cell
Transport
protein
Free hormone
Ribosome 2 3 1
Lipid-soluble
hormone
diffuses into cell
Blood capillary
Activated
receptor-hormone
complex alters
gene expression
Nucleus
Receptor
mRNA
DNA
Cytosol
Target cell
Transport
protein
Free hormone 2 1
Lipid-soluble
hormone
diffuses into cell
Blood capillary
Target cell
Transport
protein
Free hormone
Lipid-soluble Hormones

7. Hormones That Bind to Nuclear Receptor Proteins
Lipophilic steroid and thyroid hormones are attached to plasma carrier proteins.
Hormones dissociate from carrier proteins to pass through lipid component of the target plasma membrane.
Receptors for the lipophilic hormones are known as nuclear hormone receptors.

8. Nuclear Hormone Receptors
Steroid receptors are located in cytoplasm and in the nucleus.
Function within cell to activate genetic transcription.
Messenger RNA directs synthesis of specific enzyme proteins that change metabolism.
Each nuclear hormone receptor has 2 regions:
A ligand (hormone)-binding domain.
DNA-binding domain.
Receptor must be activated by binding to hormone before binding to specific region of DNA called HRE (hormone responsive element).
Located adjacent to gene that will be transcribed.
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9. Mechanisms of Steroid Hormone Action
Cytoplasmic receptor binds to steroid hormone.
Translocates to nucleus.
DNA-binding domain binds to specific HRE of the DNA.
Dimerization occurs.
Process of 2 receptor units coming together at the 2 half-sites.
Stimulates transcription of particular genes.
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10. Water-soluble Hormones
Receptor
cAMP serves as a
second messenger
to activate protein
kinases
G protein
Protein kinases
cAMP
Activated
protein
Protein—
Second messenger
Activated adenylate
cyclase converts
ATP to cAMP
Activated protein
phosphorylate
cellular proteins
Millions of phosphorylated
proteins cause reactions that
produce physiological responses
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell P
ADP
Protein
ATP 1 2 4 3 5
Water-soluble
hormone
Receptor
cAMP serves as a
second messenger
to activate protein
kinases
G protein
Protein kinases
cAMP
Activated
protein
Protein—
Second messenger
Phosphodiesterase
inactivates cAMP
Activated adenylate
cyclase converts
ATP to cAMP
Activated protein
phosphorylate
cellular proteins
Millions of phosphorylated
proteins cause reactions that
produce physiological responses
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell P
ADP
Protein
ATP 1 2 6 4 3 5
Water-soluble
hormone
Receptor
cAMP serves as a
second messenger
to activate protein
kinases
G protein
Protein kinases
cAMP
Activated
protein
Second messenger
Activated adenylate
cyclase converts
ATP to cAMP
Activated protein
phosphorylate
cellular proteins
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell
ATP 1 2 4 3
Protein— P
ADP
Protein
Water-soluble
hormone
Receptor
cAMP serves as a
second messenger
to activate protein
kinases
G protein
Protein kinases
cAMP
Second messenger
Activated adenylate
cyclase converts
ATP to cAMP
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell
ATP 1 2 3
Activated
protein
Water-soluble
hormone
Receptor
G protein
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell 1
Water-soluble
hormone
Receptor
G protein
cAMP
Second messenger
Activated adenylate
cyclase converts
ATP to cAMP
Blood capillary
Binding of hormone (first messenger)
to its receptor activates G protein,
which activates adenylate cyclase
Adenylate cyclase
Target cell
ATP 1 2
Water-soluble Hormones
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11. Hypophysiotropic Hormones
Predominant
hypothalamic
localization
Hormone
Structure
Actions on Anterior Pituitary
Thyrotropin-releasing
hormone (TRH)
Paraventricular
Arcuate
Anterior
periventricular
Peptide consisting of
3 amino acids
Single chain of 10
amino acids
Single chain of 41
Single chain of 44
Single chain of 14
Dopamine
Stimulates secretion of TSH by
thyrotropes; stimulates expression
of genes for  and ß subunits of TSH
thyrotropes; stimulates synthesis of
PRL by lactotropes
Stimulates secretion of FSH and LH
by gonadotropes
Stimulates secretion of ACTH by
corticotropes; stimulates expression
of gene for POMC in corticotropes
Stimulates secretion of GH by
somatotropes; stimulates expression
of gene for GH in somatotropes
Inhibits secretion of GH by
somatotropes
Inhibits biosynthesis and secretion
of PRL by lactotropes
Gonadotropin-releasing
hormone (GnRH)
Corticotropin-releasing
hormone (CRH)
Growth hormone-releasing
hormone (GHRH)
Growth hormone-inhibiting
hormone (somatostatin)
Prolactin-inhibiting
hormone (PIH)

12. Mechanism of Thyroid Hormone Action
T4 passes into cytoplasm and is converted to T3.
Receptor proteins located in nucleus.
T3 binds to ligand-binding domain.
Other half-site is vitamin A derivative (9-cis-retinoic) acid.
DNA-binding domain can then bind to the half-site of the HRE.
Two partners can bind to the DNA to activate HRE.
Stimulate transcription of genes.

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14. Cyclic Monophasphate (cAMP) Second Messenger Mechanism
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15. Cell Membrane Phospholipid Second Messenger System
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17. Tyrosine Kinase
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18. Tyrosine Kinase
Insulin receptor consists of 2 units that dimerize when they bind with insulin.
Insulin binds to ligand–binding site on plasma membrane, activating enzymatic site in the cytoplasm.
Autophosphorylation occurs, increasing tyrosine kinase activity.
Activates signaling molecules.
Stimulate glycogen, fat and protein synthesis.
Stimulate insertion of GLUT-4 carrier proteins.
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19. Tyrosine Kinase (continued)
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20. The Insulin Receptor & Mechanisms of Insulin Action
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23. Protein Hormones – Mechanisms of Action
Adenylyl Cyclase Mechanism
Phospholipid Mechanism
Guanylate Cyclase Mechanism
Tyrosine Kinase Mechanism
ACTH LH
FSH
TSH
GHRH
Somatostatin
ADH (V2 receptor)
HCG
MSH
CRH
Calcitonin
PTH
Glucagon
GnRH
TRH
Angiotensin II
ADH (V1 receptor)
Oxytocin
ANP
Insulin
IGF-1 GH
Prolactin
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24. Steroid & Thyroid Hormones - Mechanism of Action
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25. Determinants of Free Hormone Receptor Binding
Carrier-bound
hormone
Endocrine
cell
Free
Hormone
Hormone
receptor
Hormone
degradation
Biological
effects
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26. Correlation of Plasma Half-Life & Metabolic Clearance of Hormones with Degree of Protein Binding
(ml/minute)
Thyroid
Thyroxine
Triiodothyronine
Steroids
Cortisol
Testosterone
Aldosterone
Proteins
Thyrotropin
Insulin
Antidiuretic hormone
99.97
99.7 94 89 15
little
6 days
1 day
100 min
85 min
25 min
50 min
8 min
0.7 18
140
860
1100 50
800
600
MCR = (mg/minute removed) / (mg/ml of plasma) = ml cleared/minute
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27. Circulating Transport Proteins
Principle Hormone
Transported
Transport Protein
Specific
Corticosteroid binding globulin
(CBG, transcortin)
Thyroxine binding globulin (TBG)
Sex hormone-binding globulin
(SHBG)
Nonspecific
Albumin
Transthyretin (prealbumin)
Cortisol, aldosterone
Thyroxine, triiodothyronine
Testosterone, estrogen
Most steroids, thyroxine,
triiodothyronine
Thyroxine, some steroids
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28. Feedback Mechanisms Negative Feedback Positive Feedback Endocrine cell+ +
Endocrine
cell
Target
cell
Endocrine
cell
Target
cell _ +
Biological effects
Biological effects
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29. Steroid & Thyroid Hormones - Receptors
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30. Actions of Thyroid Hormones
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31. Insulin Action on Cells:
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37. Signaling molecule (hormones) Signal transduction
Receptor of target cell
Signal
transduction
Intracellular molecule
(second messengers)
biological effect
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38. Third messengers:
Third messengers are the molecules which transmit message from outside to inside of nucleous or from inside to outside of nucleous, also called DNA binding protein.
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39. Signal molecules Proteins and peptides: Hormones, cytokines
Effect by membrane receptors
Amino acid derivatives:
Catecholamines
Extracellular molecules
Fatty acid derivatives:
Prostaglandins
Effect by intracellular receptors
Signal molecules
Steroid hormones,
Thyroxine, VD3
Intracellular molecules
cAMP, cGMP, IP3, DG, Ca2+
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