physiology 1 lecture 3 introduction to the endocrine system
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PHYSIOLOGY 1PHYSIOLOGY 1
LECTURE 3LECTURE 3
Introduction to the Endocrine Introduction to the Endocrine SystemSystem
Introduction to the Endocrine Introduction to the Endocrine SystemSystem
OBJECTIVES:OBJECTIVES: 1. The student should be able to compare 1. The student should be able to compare
the regulatory responses of the nervous the regulatory responses of the nervous and endocrine systems.and endocrine systems.
2. The student should be able to list the 2. The student should be able to list the functions of the endocrine system.functions of the endocrine system.
3. The student should be able to describe 3. The student should be able to describe the basic endocrine glands and the basic endocrine glands and associated organs.associated organs.
Introduction to the Endocrine Introduction to the Endocrine SystemSystem
4. The student should be able to describe 4. The student should be able to describe the basic role of hormones.the basic role of hormones.
5. The student should be able to describe 5. The student should be able to describe the basic types of hormonesthe basic types of hormones
6. The student should be able to describe 6. The student should be able to describe the chemical classes of hormones.the chemical classes of hormones.
7. The student should be able to describe 7. The student should be able to describe the mechanisms of hormonal actions.the mechanisms of hormonal actions.
Systemic Control SystemsSystemic Control Systems
How does the endocrine system differ How does the endocrine system differ from the ANS?from the ANS?
A. Nervous SystemA. Nervous System– 1. Effects within a few milliseconds1. Effects within a few milliseconds– 2. Action Potentials required2. Action Potentials required– 3. Neurotransmitters may or may not 3. Neurotransmitters may or may not
be requiredbe required a. Excitationa. Excitation b. Inhibitionb. Inhibition
Systemic Control SystemsSystemic Control Systems B. Endocrine SystemB. Endocrine System
– 1. Acts within seconds to hours1. Acts within seconds to hours– 2. Endocrine glands2. Endocrine glands– 3. Hormones3. Hormones– 4. Receptors4. Receptors
C. Neuroendocrine SystemC. Neuroendocrine System– 1. Nervous system may stimulate or inhibit 1. Nervous system may stimulate or inhibit
release of hormonesrelease of hormones– 2. Hormones may promote or inhibit nerve 2. Hormones may promote or inhibit nerve
impulsesimpulses
Endocrine GlandsEndocrine Glands What constitutes the endocrine system?What constitutes the endocrine system? A. Endocrine glands = DuctlessA. Endocrine glands = Ductless B. Endocrine systemB. Endocrine system
– 1. Pituitary (hypophysis)1. Pituitary (hypophysis)– 2. Thyroid2. Thyroid– 3. Parathyroid3. Parathyroid– 4. Adrenals (Suprarenals)4. Adrenals (Suprarenals)– 5. Pineal (epiphysis cerebril)5. Pineal (epiphysis cerebril)– 6. Thymus6. Thymus
Endocrine GlandsEndocrine Glands
C. Other organs that contain endocrine C. Other organs that contain endocrine tissuetissue– 1. Pancreas1. Pancreas 8. Brain8. Brain– 2. Ovaries2. Ovaries 9. Skin9. Skin– 3. Testes3. Testes 10. Adipose tissue10. Adipose tissue– 4. Kidneys4. Kidneys 11. Heart11. Heart– 5. Stomach5. Stomach 12. Placenta12. Placenta– 6. Liver6. Liver 13. Ovaries & Testis13. Ovaries & Testis– 7. Small Intestines7. Small Intestines
Hormonal ActionsHormonal Actions
What are the hormones doing in the What are the hormones doing in the human body?human body?
A. Regulate chemical composition and A. Regulate chemical composition and volume of internal environment, change volume of internal environment, change permeability of plasma membrane, permeability of plasma membrane, stimulates transport of substances into or stimulates transport of substances into or out of target cellsout of target cells
B. Help regulate metabolism, energy B. Help regulate metabolism, energy balance, and synthesis of new moleculesbalance, and synthesis of new molecules
Hormonal ActionsHormonal Actions
C. Help to regulate contraction of smooth C. Help to regulate contraction of smooth muscle and cardiac muscle fiber and muscle and cardiac muscle fiber and secretion of glandssecretion of glands
D. Help maintain homeostasis despite; D. Help maintain homeostasis despite; infection, trauma, emotional stress, infection, trauma, emotional stress, dehydration, starvation, hemorrhage, and dehydration, starvation, hemorrhage, and temperature extremestemperature extremes
Hormonal ActionsHormonal Actions
E. Regulate certain activities of the E. Regulate certain activities of the immune systemimmune system
F. Plays a role in the sequential F. Plays a role in the sequential integration of growth and developmentintegration of growth and development
G. Contribute to the processes of G. Contribute to the processes of reproduction; gamete production, reproduction; gamete production, fertilization, nourishment of embryo and fertilization, nourishment of embryo and fetus, parturition, and nourishment of the fetus, parturition, and nourishment of the new bornnew born
HormonesHormones
How do hormones accomplish their How do hormones accomplish their tasks?tasks?
A. Produce powerful effectsA. Produce powerful effects B. Present in low concentrationsB. Present in low concentrations C. > 50 kinds of hormonesC. > 50 kinds of hormones D. Affect only a few types of cells (target D. Affect only a few types of cells (target
cells - receptor expression)cells - receptor expression)
Hormone ReceptorsHormone Receptors
A. Target cells - express specific A. Target cells - express specific receptorsreceptors– 1. Receptors - Large proteins or 1. Receptors - Large proteins or
glycoproteins – react to hormone bindingglycoproteins – react to hormone binding B. Up - Down regulation (property of the B. Up - Down regulation (property of the
target cell)target cell)– 1. Up - Increase in number of receptors 1. Up - Increase in number of receptors
decrease in hormone concentrationdecrease in hormone concentration– 2. Down - Decrease in number of receptors 2. Down - Decrease in number of receptors
increase in hormone concentrationincrease in hormone concentration
Types of HormonesTypes of Hormones
A. Circulating hormones = endocrineA. Circulating hormones = endocrine– 1. Pass into blood1. Pass into blood– 2. Act on distant target cells2. Act on distant target cells– 3. May be found in blood minutes to 3. May be found in blood minutes to
days after secretiondays after secretion– 4. Hormones may be stored on blood 4. Hormones may be stored on blood
proteins for months (Thyroid hormone), proteins for months (Thyroid hormone), blood concentrations remain constant.blood concentrations remain constant.
– 5. Active hormone – dissolved in 5. Active hormone – dissolved in plasmaplasma
Types of HormonesTypes of Hormones
B. Local HormonesB. Local Hormones– 1. Act on target cells close to the 1. Act on target cells close to the
site of releasesite of release– 2. Types – 2. Types – – Paracrines - act on neighbor cellsParacrines - act on neighbor cells– Autocrines - Act on the releasing Autocrines - Act on the releasing
cellcell– Endocrine – Act on distant cellsEndocrine – Act on distant cells– 3. Inactivated quickly micro 3. Inactivated quickly micro
seconds to seconds.seconds to seconds.
Chemical Classes of Chemical Classes of HormonesHormones
A. SteroidsA. Steroids– 1. Derived from cholesterol1. Derived from cholesterol– 2. Have a four ring structure2. Have a four ring structure– 3. Synthesized in smooth ER3. Synthesized in smooth ER– 4. Transport in blood bound to 4. Transport in blood bound to
blood proteinsblood proteins
Chemical Classes of Chemical Classes of HormonesHormones
B. Biogenic amines (Derived from amino B. Biogenic amines (Derived from amino acids)acids)
1. Synthesized from tyrosine (thyroid 1. Synthesized from tyrosine (thyroid hormones T3 & T4, Epinephrine. hormones T3 & T4, Epinephrine. Norepinephrine)Norepinephrine)– 2. Synthesized from histidine (Mast 2. Synthesized from histidine (Mast
cells and Platelets) - Histaminecells and Platelets) - Histamine– 3. Derived from typtophan (Serotonin, 3. Derived from typtophan (Serotonin,
Melatonin)Melatonin)
Chemical Classes of Chemical Classes of HormonesHormones
C. Peptides and ProteinsC. Peptides and Proteins– 1. Amino acid chains (Consisting 1. Amino acid chains (Consisting
of 3 to 200)of 3 to 200)– 2. Synthesized in the rough ER2. Synthesized in the rough ER– 3. Some have carbohydrate 3. Some have carbohydrate
groups (glycoproteins, TSH)groups (glycoproteins, TSH)
Chemical Classes of Chemical Classes of HormonesHormones
D. EicosanoidsD. Eicosanoids– 1. Chemical mediators1. Chemical mediators– 2. Derived from Arachidonic Acid2. Derived from Arachidonic Acid– 3. Local Hormones (May also act 3. Local Hormones (May also act
as circulating hormones)as circulating hormones)– 4. Types (Prostaglandins, 4. Types (Prostaglandins,
leukotrienes)leukotrienes)
Hormone Transport in the Hormone Transport in the BloodBlood
A. Endocrine glands highly vascularizedA. Endocrine glands highly vascularized B. Catecholamines, peptides, and B. Catecholamines, peptides, and
proteins are water soluble (Plasma)proteins are water soluble (Plasma) C. Steroids and Thyroid hormones bind to C. Steroids and Thyroid hormones bind to
blood proteins (Albumin, etc.)- extends blood proteins (Albumin, etc.)- extends half life and makes water soluble – half life and makes water soluble – plasma concentrations kept constant due plasma concentrations kept constant due to release from blood proteinsto release from blood proteins
Hormone Transport in the Hormone Transport in the BloodBlood
D. Transport ProteinsD. Transport Proteins– 1. Produced by liver1. Produced by liver– 2. Hydrophopic molecules bind to 2. Hydrophopic molecules bind to
transport proteins making them soluble transport proteins making them soluble in waterin water
– 3. Retards the rate of hormone loss via 3. Retards the rate of hormone loss via the kidneythe kidney
– 4. Provides ready reserve in the blood4. Provides ready reserve in the blood
Hormone Transport in the Hormone Transport in the BloodBlood
E. Free fraction - active hormoneE. Free fraction - active hormone– 1. Lipid soluble hormones not bound to 1. Lipid soluble hormones not bound to
transport proteinstransport proteins– 2. Usually about 0.1 to 10% of 2. Usually about 0.1 to 10% of
hormone totalhormone total– 3. Reduction of free fraction results in 3. Reduction of free fraction results in
release of more hormone from the release of more hormone from the transport proteins (Storage – plasma transport proteins (Storage – plasma concentration remains nearly constant)concentration remains nearly constant)
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
A. Activation of intracellular receptorsA. Activation of intracellular receptors– 1. Steroid and thyroid hormones easily 1. Steroid and thyroid hormones easily
pass the membrane barrierpass the membrane barrier– 2. Hormone binds to and activates 2. Hormone binds to and activates
receptor usually in the nucleusreceptor usually in the nucleus– 3. Activated receptor alters gene 3. Activated receptor alters gene
expressionexpression– 4. New messenger RNA is formed and 4. New messenger RNA is formed and
enters cytosolenters cytosol– 5. RNA directs synthesis of new protein5. RNA directs synthesis of new protein
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
B. Activation of plasma membrane receptorsB. Activation of plasma membrane receptors
Catecholamine, peptide, and protein hormonesCatecholamine, peptide, and protein hormones
a.a. a. Not lipid solublea. Not lipid soluble
b.b. b. Cannot diffuse through the cell membraneb. Cannot diffuse through the cell membrane
c. Attach to membrane bound receptorsc. Attach to membrane bound receptors
d. Are first messengers need second d. Are first messengers need second messenger to relay information into the cellmessenger to relay information into the cell
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
2. Second messengers2. Second messengers a. Cyclic AMP (cAMP)a. Cyclic AMP (cAMP)
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
b. Inositol triphosphate (IP3)b. Inositol triphosphate (IP3)
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
C. Calcium ion can be a second C. Calcium ion can be a second messengermessenger
Mechanisms of Hormonal Mechanisms of Hormonal ActionsActions
C. AmplificationC. Amplification– 1. Receptor activates many G-proteins1. Receptor activates many G-proteins– 2. Activated Adenalate cyclase and 2. Activated Adenalate cyclase and
phospholipase C produce many cAMP, phospholipase C produce many cAMP, IP3, and DAG moleculesIP3, and DAG molecules
– 3. Effects of hormone binding to 3. Effects of hormone binding to receptor are multiplied many foldreceptor are multiplied many fold
Hormonal InteractionsHormonal Interactions
A. Permissive effectsA. Permissive effects– 1. Previous exposure enhances the response 1. Previous exposure enhances the response
of a target cellof a target cell– 2. Usually up-regulation of receptors2. Usually up-regulation of receptors
B. Synergistic effect (aid) - Two or more B. Synergistic effect (aid) - Two or more hormones are required for full expression hormones are required for full expression of effectsof effects
C. Antagonistic effects- One hormone C. Antagonistic effects- One hormone opposes the actions of anotheropposes the actions of another