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Copyright © 2009 Pearson Education, Inc.
PowerPoint Lectures for
Biology: Concepts & Connections, Sixth Edition
Campbell, Reece, Taylor, Simon, and Dickey
Chapter 26 Hormones and the
Endocrine System
Lecture by Edward J. Zalisko
Copyright © 2009 Pearson Education, Inc.
Introduction: Gender Benders
Endocrine disruptors
– Environmental pollutants
– Interfere with the action of hormones
– Some are estrogen mimics in the environment that may produce
– Demasculinized male alligators
– Bass with male and female characteristics
– Decrease in size and functioning of polar bear genitalia
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26.1 Chemical signals coordinate body functions
Hormones
– Chemical signals
– Usually carried in the blood
– Cause specific changes in target cells
– Secreted by
– Endocrine glands
– Neurosecretory cells
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26.1 Chemical signals coordinate body functions
The endocrine system
– Consists of all hormone-secreting cells
– Works with nervous system to regulate body activities
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26.1 Chemical signals coordinate body functions
The nervous system also
– Communicates
– Regulates
– Uses electrical signals via nerve cells
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26.1 Chemical signals coordinate body functions
Comparing the endocrine and nervous systems
– Nervous system reacts faster
– Endocrine system responses last longer
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26.2 Hormones affect target cells by two main signaling mechanisms
Hormone signaling involves three key events
– Reception
– Signal Transduction
– Response
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26.2 Hormones affect target cells by two main signaling mechanisms
Amino-acid-derived hormones
– Are water-soluble
– Include proteins, peptides, and amines
– Bind to plasma-membrane receptors on target cells
– Initiate a signal transduction pathway
Animation: Water-Soluble Hormone
Plasmamembrane
Receptorprotein
Water-soluble
hormone
(epinephrine)
2
Signaltransductionpathway
Relaymolecules
1
Target
cell
Plasmamembrane
Receptorprotein
Target
cell
Water-soluble
hormone
(epinephrine) 1
2
Signaltransductionpathway
Relaymolecules
Glycogen Glucose
Cellular response(in this example, glycogen breakdown)
3
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26.2 Hormones affect target cells by two main signaling mechanisms
Steroid hormones
– Nonpolar lipids made from cholesterol
– Can diffuse through plasma membranes
– Bind to a receptor protein in the cytoplasm or nucleus
– Hormone-receptor complex carries out the transduction of the hormonal signal
Animation: Lipid-Soluble Hormone
Lipid-soluble
hormone
(testosterone) 1
Targetcell
Nucleus
Receptorprotein
2
DNA
Hormone-receptorcomplex
3
Lipid-soluble
hormone
(testosterone) 1
Targetcell
Nucleus
Receptorprotein
2
DNA
Hormone-receptorcomplex
3
mRNATranscription
Newprotein
Cellular response:activation of a gene and
synthesis of new protein
4
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26.3 Overview: The vertebrate endocrine system consists of more than a dozen major glands
The vertebrate endocrine system
– Consists of more than a dozen glands
– Secretes more than 50 hormones
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Glands
– Some are specialized for hormone secretion only
– Some also do other jobs
26.3 Overview: The vertebrate endocrine system consists of more than a dozen major glands
Hypothalamus
Parathyroid glands
Pineal gland
Pituitary gland
Thyroid gland
Thymus
Adrenal glands(atop kidneys)
Pancreas
Ovary(female)
Testes(male)
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Hormones
– Some have a very narrow range of targets and effects
– Some have numerous effects on many kinds of target cells
26.3 Overview: The vertebrate endocrine system consists of more than a dozen major glands
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26.4 The hypothalamus, which is closely tied to the pituitary, connects the nervous and endocrine systems
The hypothalamus
– Blurs the distinction between endocrine and nervous systems
– Receives input from nerves about body conditions
– Responds by sending out appropriate nervous or endocrine signals
– Uses the pituitary gland to exert master control over the endocrine system
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26.4 The hypothalamus, which is closely tied to the pituitary, connects the nervous and endocrine systems
The pituitary gland consists of two parts
– Posterior pituitary
– Composed of nervous tissue
– Stores and secretes oxytocin and ADH
Hypothalamus
Posteriorpituitary
Anteriorpituitary
Hormone Neurosecretorycell
Bloodvessel
Oxytocin ADH
Kidney tubulesUterine musclesMammary glands
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26.4 The hypothalamus, which is closely tied to the pituitary, connects the nervous and endocrine systems
Anterior pituitary
– Synthesizes and secretes hormones that control the activity of other glands
– Is controlled by the hypothalamus
– Releasing hormones stimulate the anterior pituitary
– Inhibiting hormones inhibit the anterior pituitary
Endocrine cells ofthe anterior pituitary
Pituitary hormones
Releasing hormones
from hypothalamus
Neurosecretorycell
Blood
vessel
FSHandLH
TSH ACTH Prolactin
(PRL)
Growthhormone
(GH)
Endorphins
Thyroid Adrenal
cortex
Testes or
ovaries
Mammary
glands
(in mammals)
Entire
body
Pain
receptors
in the brain
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26.5 The thyroid regulates development and metabolism
Thyroid gland hormones
– Thyroxine (T4) and triiodothyronine (T3)
– Regulate
– Metabolism
– Development
– Negative feedback
– Maintain homeostatic levels of T4 and T3 in the blood
No inhibition
No iodine
No inhibition
InsufficientT4 and T3
produced
Hypothalamus
Anteriorpituitary
Thyroid
Thyroid growsto form goiter
TRH
TSH
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26.5 The thyroid regulates development and metabolism
Thyroid imbalance can cause disease
– Hyperthyroidism
– Too much T4 and T3 in the blood
– Leads to high blood pressure, loss of weight, overheating, and irritability
– Produces Graves’ disease
– Hypothyroidism
– Too little T4 and T3 in the blood
– Leads to low blood pressure, overweight, often cold, lethargy
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26.6 Hormones from the thyroid and parathyroids maintain calcium homeostasis
Blood calcium level is regulated by a tightly balanced antagonism between
– Calcitonin from the thyroid
– Parathyroid hormone (PTH) from the parathyroid glands
Calcitonin
87
6
5
4
32
1
9
Thyroid
gland
releases
calcitonin
Stimulus:
Rising
blood Ca2+
level
(imbalance)
Blood Ca2+ rises
Ca2+
level
Ca2+
level
Homeostasis: Normal blood
calcium level (about 10 mg/100 mL)Stimulus:
Falling
blood Ca2+
level
(imbalance)
Blood Ca2+ falls
Stimulates
Ca2+ deposition
in bones
Reduces
Ca2+ uptake
in kidneys
PTH
StimulatesCa2+ releasefrom bones
IncreasesCa2+ uptakein intestines
Activevitamin D
IncreasesCa2+ uptakein kidneys
Parathyroidglandsrelease parathyroidhormone (PTH)
Parathyroid
gland
5
4
32
1
Blood Ca2+ rises
Ca2+
level
Ca2+
level
Homeostasis: Normal blood
calcium level (about 10 mg/100 mL)Stimulus:
Falling
blood Ca2+
level(imbalance)
PTH
StimulatesCa2+ releasefrom bones
Increases
Ca2+ uptakein intestines
Activevitamin D
IncreasesCa2+ uptakein kidneys
Parathyroid
glands
release parathyroid
hormone (PTH)
Parathyroid
gland
Calcitonin
87
6
9
Thyroidglandreleasescalcitonin
Stimulus:Risingblood Ca2+
level(imbalance)
Ca2+
level
Ca2+
level
Homeostasis: Normal blood
calcium level (about 10 mg/100 mL)
Blood Ca2+ falls
StimulatesCa2+ depositionin bones
ReducesCa2+ uptakein kidneys
Copyright © 2009 Pearson Education, Inc.
26.7 Pancreatic hormones regulate blood glucose levels
The pancreas secretes two hormones that control blood glucose
– Insulin—signals cells to use and store glucose
– Glucagon—causes cells to release stored glucose into the blood
Insulin
4
Beta cellsof pancreas stimulatedto release insulin intothe blood
Glucoselevel
Homeostasis: Normal blood glucose level
(about 90 mg/100 mL)
Glucoselevel
Glucagon
Low bloodglucose level
High blood
glucose level
Bodycellstake up moreglucose
Blood glucose level
declines to a set point;
stimulus for insulin
release diminishes
Liver takesup glucoseand stores it asglycogen
Alphacells ofpancreas stimulatedto release glucagoninto the blood
Stimulus:Declining bloodglucose level(e.g., afterskipping a meal)
Stimulus:Rising blood glucoselevel (e.g., after eatinga carbohydrate-richmeal)
Blood glucose level
rises to set point;
stimulus for glucagon
release diminishes
Liverbreaks downglycogen andreleases glucoseto the blood
7
6
1
2
5
8
3
Insulin
4
Beta cellsof pancreas stimulatedto release insulin intothe blood
Glucoselevel
Homeostasis: Normal blood glucose level
(about 90 mg/100 mL)
Glucoselevel
High blood
glucose level
Bodycellstake up moreglucose
Blood glucose level
declines to a set point;
stimulus for insulin
release diminishes
Liver takesup glucoseand stores it asglycogen
Stimulus:Rising blood glucoselevel (e.g., after eatinga carbohydrate-richmeal)
1
2
3
Glucoselevel
Homeostasis: Normal blood glucose level
(about 90 mg/100 mL)
Glucoselevel
Glucagon
Low bloodglucoselevel
Alphacells ofpancreas stimulatedto release glucagoninto the blood
Stimulus:Declining bloodglucose level(e.g., afterskipping a meal)
Blood glucose level
rises to set point;
stimulus for glucagon
release diminishes
Liverbreaks downglycogen andreleases glucoseto the blood
7
6
5
8
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26.8 CONNECTION: Diabetes is a common endocrine disorder
Diabetes mellitus
– Results from
– A lack of insulin or
– A failure of cells to respond to it
– Affects about 21 million Americans
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26.8 CONNECTION: Diabetes is a common endocrine disorder
Two common types of diabetes mellitus
– Type 1 (insulin-dependent)
– Autoimmune disease
– Insulin-producing cells destroyed
– Type 2 (non-insulin-dependent)
– Deficiency of insulin
– More commonly, reduced response to insulin
– More than 90% of diabetics are type 2
– Associated with being overweight and underactive
Blo
od
glu
co
se (
mg
/100 m
L)
Hours after glucose ingestion
Normal
400
Diabetic
300
250
200
150
100
50
00
350
1 2 3 4 512
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26.9 The adrenal glands mobilize responses to stress
Hormones from the adrenal glands help maintain homeostasis when the body is stressed
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26.9 The adrenal glands mobilize responses to stress
Nerve signals from the hypothalamus stimulate the adrenal medulla to secrete
– Epinephrine
– Norepinephrine
These hormones quickly trigger the fight-or-flight responses
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26.9 The adrenal glands mobilize responses to stress
Adrenocorticotropic hormone (ACTH) from the pituitary causes the adrenal cortex to secrete
– Glucocorticoids
– Mineralocorticoids
These hormones
– Boost blood pressure
– Boost energy in response to long-term stress
Hypothalamus
Stress
Releasing hormone
Blood vessel
Anterior pituitary
Adrenal cortex
ACTH
Nervecell
Nerve cell
Adrenal medulla
3
4
5
2
Nervesignals
AdrenalmedullaAdrenal
gland
Adrenalcortex
Kidney
Spinal cord(cross section)
Epinephrine andnorepinephrine
MineralocorticoidsGlucocorticoids
Long-term stress responseShort-term stress response
Mineralocorticoids Glucocorticoids
2. Increased bloodvolume and bloodpressure
1. Retention ofsodium ions andwater by kidneys
2. Immune system maybe suppressed
1. Proteins and fatsbroken down andconverted to glucose,leading to increasedblood glucose
1. Glycogen broken down to glucose;
increased blood glucose
2. Increased blood pressure
3. Increased breathing rate
4. Increased metabolic rate
5. Change in blood-flow patterns,
leading to increased alertness and
decreased digestive and kidney activity
ACTH
1
Hypothalamus
Stress
Releasing hormone
Blood vessel
Anterior pituitary
Adrenal cortex
ACTH
Nervecell
Nerve cell
Adrenal medulla
3
4
5
2
Nervesignals
AdrenalmedullaAdrenal
gland
Adrenalcortex
Kidney
Spinal cord(cross section)
Epinephrine and
norepinephrine
Mineralocorticoids Glucocorticoids
ACTH
1
Long-term stress responseShort-term stress response
Short-term stress response
1. Glycogen broken down to glucose;
increased blood glucose
2. Increased blood pressure
3. Increased breathing rate
4. Increased metabolic rate
5. Change in blood-flow patterns,
leading to increased alertness and
decreased digestive and kidney activity
Long-term stress response
Mineralocorticoids Glucocorticoids
2. Increased bloodvolume and bloodpressure
1. Retention ofsodium ions andwater by kidneys
2. Immune system maybe suppressed
1. Proteins and fatsbroken down andconverted to glucose,leading to increasedblood glucose
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26.10 The gonads secrete sex hormones
Steroid sex hormones
– Include estrogens, progestins, and androgens
– Produced by the gonads in response to signals from
– Hypothalamus
– Pituitary
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26.10 The gonads secrete sex hormones
Estrogens and progestins
– Stimulate the development of female characteristics
– Maintain the female reproductive system
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26.10 The gonads secrete sex hormones
Androgens
– Such as testosterone
– Trigger the development of male characteristics
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26.11 EVOLUTION CONNECTION: A single hormone can perform a variety of functions in different animals
Prolactin in humans
– Stimulates mammary glands to grow and produce milk during late pregnancy
– Suckling by a newborn stimulates further release of prolactin
– High prolactin during nursing inhibits ovulation
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Prolactin
– Nonhuman mammals—stimulates nest building
– Birds—regulates fat metabolism and reproduction
– Amphibians—movement to water
– Fish—migration between salt and fresh water
26.11 EVOLUTION CONNECTION: A single hormone can perform a variety of functions in different animals
New protein
Cellular response
mRNA
DNA
Hormone-receptorcomplex
Receptorprotein
Lipid-solublehormone
Water-solublehormone
Receptorprotein
Signaltransductionpathway
Posterior pituitary:
Composed of nervous tissue;
stores and secretes hormones
made by hypothalamus
Brain Hypothalamus:
Master control
center of the
endocrine system
Anterior pituitary:
Composed of
endocrine tissue;
controlled by
hypothalamus;
produces and
secretes its
own hormones
Pineal gland
e. regulates metabolism
f. related to daily rhythm
g. raises blood calcium levels
h. boosts water retention
Parathyroid gland
Hypothalamus
a. lowers blood glucose
b. stimulates ovaries
c. triggers fight-or-flight
d. promotes male traits
Anterior pituitary
Testes
Adrenal medulla
Pancreas
Thyroid gland
4. insulin
5. melatonin
6. FSH
1. thyroxine
2. epinephrine
3. androgens
7. PTH
8. ADH
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You should now be able to
1. Explain how endocrine disruptors are causing environmental problems
2. Compare the mechanisms and functions of the endocrine and nervous systems
3. Distinguish between the two major classes of vertebrate hormones
4. Describe the different types and functions of vertebrate endocrine organs
Copyright © 2009 Pearson Education, Inc.
You should now be able to
5. Describe the interrelationships between the hypothalamus and pituitary glands
6. Describe the functions of the thyroid and parathyroid glands
7. Explain how insulin and glucagon manage blood glucose levels
8. Describe the causes and symptoms of types 1 and 2 diabetes