1. Hormones and the Endocrine System
Chapter 45
Hormones and the Endocrine System

2. Overview: The Body’s Long-Distance Regulators
Animal _______________ are chemical signals that are secreted into the circulatory system and communicate regulatory messages within the body
Hormones reach ____________ of the body, but only target cells have ________ for that hormone
Insect metamorphosis is regulated by hormones
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3. Two systems coordinate communication throughout the body: the endocrine system and the nervous system
The __________________ secretes hormones that coordinate slower but longer-acting responses including reproduction, development, energy metabolism, growth, and behavior
The ________________ conveys high-speed electrical signals along specialized cells called neurons; these signals regulate other cells
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4. Concept 45.1: Hormones and other signaling molecules bind to target receptors, triggering specific response pathways
________________ is just one of several ways that information is transmitted between animal cells
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5. Intercellular Communication
The ways that signals are transmitted between animal cells are classified by two criteria
The _______________
The ___________________ by the signal in reaching its target
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6. Endocrine Signaling
Hormones secreted into extracellular fluids by endocrine cells reach their targets via the ______________________________
Endocrine signaling maintains _____________, mediates _______________, regulates ______ ______________________
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7. Figure 45.2 Intercellular communication by secreted molecules.
Blood vessel
Response
(a) Endocrine signaling
Response
(b) Paracrine signaling
Response
(c) Autocrine signaling
Synapse
Neuron
Figure 45.2 Intercellular communication by secreted molecules.
Response
(d) Synaptic signaling
Neurosecretory cell
Blood vessel
Response
(e) Neuroendocrine signaling

8. Paracrine and Autocrine Signaling
_________________ are molecules that act over short distances, reaching target cells solely by diffusion
In __________________, the target cells lie near the secreting cells
In __________________, the target cell is also the secreting cell
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9. (a) Endocrine signaling
Figure 45.2a
Blood vessel
Response
(a) Endocrine signaling
Response
(b) Paracrine signaling
Figure 45.2 Intercellular communication by secreted molecules.
Response
(c) Autocrine signaling

10. Synaptic and Neuroendocrine Signaling
In________________, neurons form specialized junctions with target cells, called synapses
At synapses, neurons secrete molecules called ______________ that diffuse short distances and bind to receptors on target cells
In neuroendocrine signaling, specialized neurosecretory cells secrete molecules called ___________________ that travel to target cells via the bloodstream
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11. (d) Synaptic signaling
Figure 45.2b
Synapse
Neuron
Response
(d) Synaptic signaling
Neurosecretory cell
Figure 45.2 Intercellular communication by secreted molecules.
Blood vessel
Response
(e) Neuroendocrine signaling

12. Signaling by Pheromones
Members of the same animal species sometimes communicate with________________, chemicals that are released into the environment
Pheromones serve many functions, including marking trails leading to food, defining territories, warning of predators, and attracting potential mates
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13. Endocrine Tissues and Organs
In some tissues, endocrine cells are grouped together in ductless organs called ____________ _______________
Endocrine glands secrete ______________ directly into surrounding fluid
These contrast with _______________, which have ducts and which secrete substances onto body surfaces or into cavities
Ex. Salivary glands
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14. Major endocrine glands:
Figure 45.4
Major endocrine glands:
Hypothalamus
Pineal gland
Pituitary gland
Organs containing endocrine cells:
Thyroid gland
Thymus
Parathyroid glands (behind thyroid)
Heart
Liver
Adrenal glands (atop kidneys)
Stomach
Pancreas
Kidneys
Small intestine
Figure 45.4 Major human endocrine glands.
Ovaries (female)
Testes (male)

15. Chemical Classes of Hormones
Three major classes of molecules function as hormones in vertebrates
__________________ (proteins and peptides)
_________________ derived from amino acids
____________________
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16. _______________hormones (steroid hormones) pass easily through cell membranes, while __________________hormones (polypeptides and amines) do not
The solubility of a hormone correlates with the location of ______________ inside or on the surface of target cells
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17. Water-soluble (hydrophilic) Lipid-soluble (hydrophobic)
Figure 45.5
Water-soluble (hydrophilic)
Lipid-soluble (hydrophobic)
Polypeptides
Steroids
0.8 nm
Insulin
Cortisol
Amines
Figure 45.5 Hormones differ in structure and solubility.
Epinephrine
Thyroxine

18. Cellular Response Pathways
Water- and lipid-soluble hormones differ in their ____________ through a body
Water-soluble hormones are secreted by ______________, travel freely in the bloodstream, and bind to ___________________
Lipid-soluble hormones ___________across cell membranes, travel in the bloodstream bound to transport proteins, and diffuse through the membrane of target cells
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19. Water- soluble hormone Lipid- soluble hormone
Figure
SECRETORY CELL
Water- soluble hormone
Lipid- soluble hormone
VIA BLOOD
Transport protein
Signal receptor
TARGET CELL
Signal receptor
Figure 45.6 Receptor location varies with hormone type.
NUCLEUS
(a)
(b)

20. Water- soluble hormone Lipid- soluble hormone
Figure
SECRETORY CELL
Water- soluble hormone
Lipid- soluble hormone
VIA BLOOD
Transport protein
Signal receptor
TARGET CELL OR
Signal receptor
Figure 45.6 Receptor location varies with hormone type.
Cytoplasmic response
Gene regulation
Cytoplasmic response
Gene regulation
NUCLEUS
(a)
(b)

21. Pathway for Water-Soluble Hormones
Binding of a hormone to its receptor initiates a ________________ pathway leading to responses in the cytoplasm, enzyme activation, or a change in gene expression
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22. The hormone ____________ has multiple effects in mediating the body’s response to short-term stress
Epinephrine binds to receptors on the plasma membrane of _____________ cells
This triggers the release of messenger molecules that activate enzymes and result in the release of ___________ into the bloodstream
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23. G protein-coupled receptor
Figure
Epinephrine
Adenylyl cyclase
G protein
G protein-coupled receptor
GTP
ATP
Second messenger
cAMP
Figure 45.7 Cell-surface hormone receptors trigger signal transduction.

24. G protein-coupled receptor GTP
Figure
Epinephrine
Adenylyl cyclase
G protein
G protein-coupled receptor
GTP
ATP
Second messenger
cAMP
Figure 45.7 Cell-surface hormone receptors trigger signal transduction.
Protein kinase A
Inhibition of glycogen synthesis
Promotion of glycogen breakdown

25. Pathway for Lipid-Soluble Hormones
The response to a lipid-soluble hormone is usually a change in ______________________
________________ hormones, and the hormonal form of ___________enter target cells and bind to protein receptors in the cytoplasm or nucleus
Protein-receptor complexes then act as ___________________ in the nucleus, regulating transcription of specific genes
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26. Estradiol (estrogen) receptor
Figure
Hormone (estradiol)
EXTRACELLULAR FLUID
Estradiol (estrogen) receptor
Plasma membrane
Hormone-receptor complex
Figure 45.8 Steroid hormone receptors directly regulate gene expression.

27. Estradiol (estrogen) receptor
Figure
Hormone (estradiol)
EXTRACELLULAR FLUID
Estradiol (estrogen) receptor
Plasma membrane
Hormone-receptor complex
NUCLEUS
CYTOPLASM
Figure 45.8 Steroid hormone receptors directly regulate gene expression.
DNA
Vitellogenin
mRNA for vitellogenin

28. Multiple Effects of Hormones
The same hormone may have different effects on target cells that have
Different ______________ for the hormone
Different ______________________________
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29. Same receptors but different intracellular proteins (not shown)
Figure 45.9
Same receptors but different intracellular proteins (not shown)
Different receptors
Different cellular responses
Different cellular responses
Epinephrine
Epinephrine
Epinephrine
 receptor
 receptor
 receptor
Glycogen deposits
Figure 45.9 One hormone, different effects.
Vessel dilates.
Vessel constricts.
Glycogen breaks down and glucose is released from cell.
(a) Liver cell
(b)
Skeletal muscle blood vessel
Intestinal blood vessel
(c)

30. Signaling by Local Regulators
_________________ are secreted molecules that link neighboring cells or directly regulate the secreting cell
Types of local regulators
______________ and ________________
__________________
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31. In the immune system, prostaglandins promote __________ and ______________ and intensify the sensation of pain
Prostaglandins help regulate _______________ _______________, an early step in formation of blood clots
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32. Coordination of Neuroendocrine and Endocrine Signaling
The endocrine and nervous systems generally act __________________ to control reproduction and development
For example, in larvae of butterflies and moths, the signals that direct molting originate in the brain
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33. In insects, molting and development are controlled by a combination of hormones
A _____________(PTTH) stimulates release of ________________from the prothoracic glands
_______________________ promotes retention of larval characteristics
_______________________ promotes molting (in the presence of juvenile hormone) and development (in the absence of juvenile hormone) of adult characteristics
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34. Juvenile hormone (JH) Low JH
Figure
Brain
Neurosecretory cells
Corpora cardiaca
Corpora allata
PTTH
Prothoracic gland
Juvenile hormone (JH)
Low JH
Ecdysteroid
Figure Regulation of insect development and metamorphosis.
EARLY LARVA
LATER LARVA
PUPA
ADULT

35. Concept 45.2: Feedback regulation and antagonistic hormone pairs are common in endocrine systems
Hormones are assembled into _____________ _______________________
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36. Simple Hormone Pathways
Hormones are released from an endocrine cell, travel through the bloodstream, and interact with specific receptors within a target cell to cause a __________________ response
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37. For example, the release of acidic contents of the stomach into the duodenum stimulates endocrine cells there to secrete _________________
This causes target cells in the _____________, a gland behind the stomach, to raise the pH in the duodenum
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38. S cells of duodenum secrete the hormone secretin ( ).
Figure 45.11
Pathway
Example 
Stimulus
Low pH in duodenum
S cells of duodenum secrete the hormone secretin ( ).
Endocrine cell
Hormone
Negative feedback
Figure A simple endocrine pathway.
Blood vessel
Target cells
Pancreas
Response
Bicarbonate release

39. In a simple neuroendocrine pathway, the stimulus is received by a sensory neuron, which stimulates a __________________ cell
The neurosecretory cell secretes a __________________________, which enters the bloodstream and travels to target cells
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40. Hypothalamus/ posterior pituitary
Figure 45.12
Pathway
Example 
Stimulus
Suckling
Sensory neuron
Hypothalamus/ posterior pituitary
Posterior pituitary secretes the neurohormone oxytocin ( ).
Neurosecretory cell
Positive feedback
Neurohormone
Blood vessel
Figure A simple neuroendocrine pathway.
Target cells
Smooth muscle in breasts
Response
Milk release

41. Feedback Regulation
A _________________ loop inhibits a response by reducing the initial stimulus, thus preventing excessive pathway activity
___________________ reinforces a stimulus to produce an even greater response
For example, in mammals ____________ causes the release of milk, causing greater suckling by offspring, which stimulates the release of more oxytocin
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42. Insulin and Glucagon: Control of Blood Glucose
_____________ (decreases blood glucose) and _____________ (increases blood glucose) are antagonistic hormones that help maintain glucose homeostasis
The pancreas has clusters of endocrine cells called ______________ with _________ cells that produce glucagon and __________ cells that produce insulin
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43. Body cells take up more glucose. Insulin
Figure 45.13
Body cells take up more glucose.
Insulin
Beta cells of pancreas release insulin into the blood.
Liver takes up glucose and stores it as glycogen.
STIMULUS: Blood glucose level rises (for instance, after eating a carbohydrate-rich meal).
Blood glucose level declines.
Homeostasis: Blood glucose level (70–110 mg/m100mL)
STIMULUS: Blood glucose level falls (for instance, after skipping a meal).
Figure Maintenance of glucose homeostasis by insulin and glucagon.
Blood glucose level rises.
Liver breaks down glycogen and releases glucose into the blood.
Alpha cells of pancreas release glucagon into the blood.
Glucagon

44. Target Tissues for Insulin and Glucagon
Insulin ___________blood glucose levels by
Promoting the ________________________
Slowing _____________________ in the liver
Promoting ______________, not breakdown
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45. Glucagon ___________ blood glucose levels by
Stimulating conversion of ___________ to __________________ in the liver
Stimulating breakdown of _______and _______ into glucose
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46. Diabetes Mellitus
__________________ is perhaps the best-known endocrine disorder
It is caused by a deficiency of __________ or a _________________ to insulin in target tissues
It is marked by __________blood glucose levels
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47. _____________________ (insulin-dependent) is an autoimmune disorder in which the immune system destroys pancreatic ________cells
____________________(non-insulin-dependent) involves insulin deficiency or reduced response of target cells due to change in insulin receptors
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48. Concept 45.3: The hypothalamus and pituitary are central to endocrine regulation
Endocrine pathways are subject to regulation by the_______________, including the brain
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49. Coordination of Endocrine and Nervous Systems in Vertebrates
The _________________ receives information from the nervous system and initiates responses through the endocrine system
Attached to the hypothalamus is the __________ ________________, composed of the posterior pituitary and anterior pituitary
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50. The __________________ stores and secretes hormones that are made in the hypothalamus
The __________________ makes and releases hormones under regulation of the hypothalamus
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51. Cerebrum Pineal gland Thalamus Hypothalamus Cerebellum Pituitary gland
Figure 45.14
Cerebrum
Pineal gland
Thalamus
Hypothalamus
Cerebellum
Pituitary gland
Spinal cord
Hypothalamus
Figure Endocrine glands in the human brain.
Posterior pituitary
Anterior pituitary

52. Posterior Pituitary Hormones
The two hormones released from the posterior pituitary act directly on nonendocrine tissues
_______________ regulates milk secretion by the mammary glands
_____________________ regulates physiology and behavior
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53. Mammary glands, uterine muscles
Figure 45.15
Hypothalamus
Neurosecretory cells of the hypothalamus
Neurohormone
Axons
Posterior pituitary
Anterior pituitary
Figure Production and release of posterior pituitary hormones.
HORMONE
ADH
Oxytocin
TARGET
Kidney tubules
Mammary glands, uterine muscles

54. Anterior Pituitary Hormones
Hormone production in the _______________ is controlled by releasing and inhibiting hormones from the hypothalamus
For example, prolactin-releasing hormone from the hypothalamus stimulates the anterior pituitary to secrete ___________________, which has a role in milk production
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55. Liver, bones, other tissues
Figure 45.16
Tropic effects only: FSH LH TSH ACTH
Neurosecretory cells of the hypothalamus
Nontropic effects only: Prolactin MSH
Nontropic and tropic effects: GH
Hypothalamic releasing and inhibiting hormones
Portal vessels
Endocrine cells of the anterior pituitary
Posterior pituitary
Pituitary hormones
Figure Production and release of anterior pituitary hormones.
HORMONE
FSH and LH
TSH
ACTH
Prolactin
MSH GH
TARGET
Testes or ovaries
Thyroid
Adrenal cortex
Mammary glands
Melanocytes
Liver, bones, other tissues

56. Table 45.1
Table 45.1 Major Human Endocrine Glands and Some of Their Hormones

57. Thyroid Regulation: A Hormone Cascade Pathway
A hormone can stimulate the release of a series of other hormones, the last of which activates a nonendocrine target cell; this is called a _______________________________
The release of ______________hormone results from a hormone cascade pathway involving the hypothalamus, anterior pituitary, and thyroid gland
Hormone cascade pathways typically involve negative feedback
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58. Figure 45.17
Pathway
Example
Stimulus
Cold
Sensory neuron 
Hypothalamus
Hypothalamus secretes thyrotropin-releasing hormone (TRH ).
Neurosecretory cell
Releasing hormone
Blood vessel 
Anterior pituitary secretes thyroid-stimulating hormone (TSH, also known as thyrotropin ).
Anterior pituitary
Tropic hormone
Negative feedback
Thyroid gland secretes thyroid hormone (T3 and T4 ).
Figure A hormone cascade pathway.
Endocrine cell
Hormone
Target cells
Body tissues
Increased cellular metabolism
Response

59. Disorders of Thyroid Function and Regulation
_________________, too little thyroid function, can produce symptoms such as
Weight gain, lethargy, cold intolerance
__________________, excessive production of thyroid hormone, can lead to
High temperature, sweating, weight loss, irritability, and high blood pressure
__________________can alter thyroid function
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60. Thyroid hormone refers to a pair of hormones
____________disease, a form of hyperthyroidism caused by autoimmunity, is typified by protruding eyes
Thyroid hormone refers to a pair of hormones
_________________, with three iodine atoms
_________________, with four iodine atoms
Insufficient dietary ____________ leads to an enlarged thyroid gland, called a ___________
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61. Evolution of Hormone Function
Over the course of evolution the function of a given hormone may _______ between species
For example, thyroid hormone plays a role in metabolism across many lineages, but in frogs has taken on a unique function: stimulating the _______________ of the tadpole tail during metamorphosis
______________ also has a broad range of activities in vertebrates
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62. _____________________________________ regulates skin color in amphibians, fish, and reptiles by controlling pigment distribution in melanocytes
In mammals, MSH plays additional roles in __________ and _______________ in addition to coloration
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63. Tropic and Nontropic Hormones
A ________ hormone regulates the function of endocrine cells or glands
Three primarily tropic hormones are
__________________________
_______________________________
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64. It promotes growth directly and has diverse metabolic effects
__________________ is secreted by the anterior pituitary gland and has tropic and nontropic actions
It promotes growth directly and has diverse metabolic effects
It stimulates production of growth factors
An excess of GH can cause ______________, while a lack of GH can cause dwarfism
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