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The Endocrine System
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Learning Objectives
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Describe the negative feedback system that
controls production of hormones.
List the major endocrine glands and the hormones
they produce.
Describe the structure and functions of the
pituitary gland.
Describe the effect(s) of growth hormone,
prolactin, thyroid-stimulating hormone,
adrenocorticotropic hormone, follicle-stimulating
hormone, luteinizing hormone, melanocytestimulating hormone, antidiuretic hormone, and
oxytocin.
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Learning Objectives
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Describe the structure of the thyroid gland.
Describe the effects of thyroid hormone,
calcitonin, and parathormone.
Differentiate between T3 and T4.
List the three categories of hormones produced
by the adrenal cortex.
List the hormones produced by the pancreatic
islet cells and describe the effect(s) of each.
Describe the effect(s) of androgens, estrogens,
and progestins.
List the hormones produced by the kidneys,
stomach, small intestine, placenta, thymus, and
pineal body.
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Endocrine System
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Works together with
nervous system to
maintain
homeostasis
Primary function:
produces hormones
Hormones act on
specific target cells
to produce specific
effects.
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Hormones
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Chemical messengers produced by
endocrine glands and secreted directly into
blood vessels
Produce effects when they find their
specific receptors in or on cells
A cell that has receptors for a particular
hormone is referred to as a target of that
hormone.
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Compare Endocrine and Nervous
System
Characterisitc
Endocrine System
Nervous System
General function
Regulation of body
functions/ homeostasis
Regulation of body
functions/ homeostasis
Reaction to stimuli
Slow
Fast
Duration of effects
Long
Short
Target tissues
Body cells and tissues
Muscle tissue
Chemical messenger
Hormone
Neurotransmitter
Messenger producing
cells
Endocrine glands or
modified neurons
Neurons
Distance from chemical Long (via bloodstream)
production to target
Short (across synaptic
space)
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Control of Hormone Secretion
Negative feedback systems
 When the level of a specific hormone
drops below needed levels, the
appropriate endocrine gland is stimulated
to produce more hormone.
 Once the proper hormone level is present
in the bloodstream, stimulation of that
endocrine gland is reduced and production
of that hormone is reduced.
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Control of Hormone Secretion
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Direct stimulation from the nervous system
Secretion of some hormones is stimulated
by sympathetic nerve impulses when an
animal feels threatened.
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“Fight or flight" response
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Major Endocrine Glands
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Anterior pituitary
Posterior pituitary
Thyroid
Parathyroid
Adrenal cortex
Adrenal medulla
Pancreas (islets)
Testis
Ovary
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Hypothalamus
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Part of diencephalon section
of the brain
Controls activities of the
pituitary gland
Portal system of blood
vessels links hypothalamus
with anterior portion of
pituitary gland
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Hypothalamus
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Modified neurons in the
hypothalamus secrete
releasing and inhibiting
factors into portal blood
vessels
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Specific for a particular
anterior pituitary hormone
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Hypothalamus
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Modified neurons in
hypothalamus also secrete
antidiuretic hormone and
oxytocin
Transported to posterior
pituitary for storage
Released into the bloodstream
by nerve impulses from the
hypothalamus
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Pituitary Gland (Hypophysis)
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Two separate glands with different structures,
functions, and embryological origins
Anterior pituitary - adenohypophysis; rostral
portion
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Stimulated by hypothalamus and direct -feedback
from target organs and tissues to produce its
hormones
Posterior pituitary - neurohypophysis; caudal
portion
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Stores and releases hormones produced in
hypothalamus
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The Anterior Pituitary
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Known anterior pituitary hormones:
1. Growth hormone
2. Prolactin
3. Thyroid-stimulating hormone
4. Adrenocorticotropic hormone
5. Follicle-stimulating hormone
6. Luteinizing hormone
7. Melanocyte-stimulating hormone
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Growth Hormone (GH)
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Also known as somatotropin and
somatotropic hormone
Promotes body growth in young animals
Helps regulate the metabolism of proteins,
carbohydrates, and lipids in all the body's
cells
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Prolactin
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Helps trigger and maintain lactation
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Secretion of milk by the mammary glands
Prolactin production and release continues
as long as the teat or nipple continues to
be stimulated by nursing or milking.
When prolactin stimulation stops, milk
production stops, and the mammary gland
shrinks back to its nonlactating size.
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Thyroid-Stimulating Hormone (TSH)
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Also known as thyrotrophic hormone
Stimulates growth and development of
thyroid gland and causes it to produce its
hormones
Secretion is regulated by feedback from
the thyroid gland
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Has direct effects on anterior pituitary gland
through changes in TSH-releasing factor
produced by the hypothalamus
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Adrenocorticotropic Hormone (ACTH)
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Stimulates growth and development of the
adrenal cortex and release of some of its
hormones
Regulated by feedback from the hormones of
the adrenal
ACTH can also be released quickly as a result
of stimulation of the hypothalamus by other
parts of the brain.
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Hypothalamus sends a burst of ACTH-releasing
factor to the anterior pituitary through the portal
system causing ACTH to be released quickly
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Follicle-Stimulating Hormone (FSH)
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In female, stimulates growth and
development of ovarian follicles oogenesis
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Also stimulates cells lining the follicles to
produce and secrete estrogens
In the male, stimulates spermatogenesis
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Luteinizing Hormone (LH)
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Completes process of follicle development
in ovary
Increasing amounts of estrogens feedback
to the anterior pituitary and cause reduced
production of FSH and increased
production of LH
LH levels reach a peak when follicle is fully
mature
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Usually causes ovulation
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Luteinizing Hormone (LH)
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After ovulation, LH stimulates cells in the
empty follicle to multiply and develop into
the corpus luteum.
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Corpus luteum produces progestin hormones
necessary for the maintenance of pregnancy
In the male, LH stimulates interstitial cells
to develop and produce testosterone.
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Melanocyte-Stimulating Hormone (MSH)
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Associated with control of color changes in
the pigment cells (melanocytes) of reptiles,
fish, and amphibians
Administration of artificially large amounts
of MSH to higher mammals can cause
darkening of the skin from melanocyte
stimulation
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The Posterior Pituitary
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Stores two hormones produced in the
hypothalamus
Antidiuretic hormone and oxytocin
Transported from hypothalmus to posterior
pituitary and stored in nerve endings
Periodically released into the bloodstream
in response to nerve impulses from
hypothalmus
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Antidiuretic Hormone (ADH)
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Helps prevent diuresis
Receptors in hypothalamus detect changes in
osmotic pressure of blood that result from
dehydration/hemoconcentration
Generates nerve impulses - causes release
of ADH
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ADH travels to the kidney - causes kidneys to
reabsorb more water from the urine and return it to
the bloodstream
ADH deficiency causes diabetes insipidus.
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Oxytocin
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Effects on uterus - causes contraction of
the myometrium at the time of breeding
and at parturition
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Induces uterine contractions that aid transport
of spermatozoa to the oviducts
Stimulates uterine contractions that aid in the
delivery of the fetus and the placenta
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Oxytocin
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Effect on active mammary glands - causes
movement of milk down to the lower parts
of the gland (milk letdown)
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Stimulation of the teat or nipple by nursing or
milking causes oxytocin to be released into the
bloodstream.
Causes contraction of the myoepithelial cells
around the mammary gland alveoli and small
ducts
Forces milk into the lower parts of the gland
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Pituitary tumors
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Tend to be benign
Do not spread/ but can grow and affect/
worsen condition
can cause a variety of different conditions
depending on area of pituitary gland affected
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Cushing’s disease
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Too much hormone (cortisol)
Adrenal glands
Cause is small benign pituitary tumor
Sometime this disease can be caused by a
tumor in the adrenal glands
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Dwarfism
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Front portion of
pituitary gland does
not develop
Tumor
Lack of growth
hormone
Not a “cute” disease
inherited
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Diabetes Insipidus
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Antidiuretic
hormone/
vasopressin
(pituitary)
Does not secrete
enough hormone
Or kidneys do not
respond normally to
hormone
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The Thyroid Gland
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Consists of two lobes on
either side of larynx
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Lobes may be connected by
isthmus
Thyroid hormone is produced
in follicles
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Simple cuboidal glandular cells
surrounding globule of thyroid
hormone precursor
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Thyroid Hormones
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T3 (triiodothyronine) and T4
(tetraiodothyronine, or thyroxine)
Produced when TSH from anterior pituitary
reaches the thyroid gland
T4 produced in greater abundance than T3
but is mostly converted to T3 before
producing effects on target cells
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Effects of Thyroid Hormones
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Influences development and maturation of
CNS; growth and development of muscles
and bones
Calorigenic effect - regulates the metabolic
rate of all the body's cells
Allows animal to generate heat and maintain
constant internal body temperature
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Effects of Thyroid Hormones
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Production increases with exposure to cold
and then increases metabolic rate to
generate more heat
Affects metabolism of proteins,
carbohydrates, and lipids much like GH does
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Hypothyroidism
The pituitary gland “talks” to
the thyroid gland through
hormone TSH
TSH says-hey Thyroid gland,
produce T3 and T4
TSH goes up because it says,
hey there’s not enough T4 or
T3 in the blood.
T4 is normally checked in a
basic test.
T3 and T4 together are called
the thyroid homone
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Hyperthyroidism
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Common in aging cats
Excessive production of thyroid hormone
Can feel an enlarged thyroid gland
Can be treated with medication
Surgical removal of the thyroid gland
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Signs of Hyperthyroidism
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Weight loss (increased
metabolism)
Polyuria
Polydipsia
Meowing
Aggression
Affection
(Behavior changes)
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Calcitonin
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Produced by C cells located between
thyroid follicles
Helps maintain blood calcium levels
Prevents hypercalcemia by encouraging
excess calcium to be deposited in the
bones
Calcium is involved in muscle contraction,
blood clotting, milk secretion, and
formation and maintenance of the skeleton
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Parathyroid Hormone (PTH)
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Also called parathormone
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Produced by the parathyroid glands
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Small, pale nodules in, on, or near the thyroid
glands
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Helps maintain blood calcium levels
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Prevents hypocalcemia
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Causes kidneys to retain calcium and intestine
to absorb calcium from food; withdraws
calcium from bones
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The Adrenal Glands
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Located near the
cranial ends of the
kidneys
Consist of two
glands:
1. Adrenal cortex
2.
Adrenal medulla
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Hyperadrenocorticism
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Over production of glucocorticoid (hormone)
Commonly called Cushings Disease
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An opposite disease is Addison’s where there is a
deficiency
Signs:
Polydypsia
Polyuria
Body fat distribution
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Cushings (Hyperadrenocorticism)
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Addison’s
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Clinical Signs:
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Clinical signs include anorexia, or an absent appetite,
a thin body condition, depression, vomiting, diarrhea, weakness,
collapse, polyuria, or increased thirst, signs that come and go
over time
trembling or shaking, and abdominal pain
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Presented often as an Addisonian crisis
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Collapse or shock
Sodium/potassium water balance (mineral)
Glucose/metabolism (gluco)
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Adrenal Cortex
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Produces
numerous steroid
hormones classified
into three main
groups:
1.
2.
3.
Glucocorticoids
Mineralocorticoids
Sex hormones
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Adrenal Cortex
1.
Glucocorticoids: cortisone, cortisol, and
corticosterone
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2.
Hyperglycemic effect
Also help maintain blood pressure and help the
body resist the effects of stress
Mineralocorticoids (e.g., aldosterone)
Regulate the levels of important electrolytes
(mineral salts) in the body
Sex hormones - androgens and estrogens
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Adrenal Medulla
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Produces epinephrine and norepinephrine
Secretion is controlled by the sympathetic
portion of the autonomic nervous system
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“Fight or flight" response
Increases heart rate and output, increases
blood pressure, dilates air passageways in
the lungs, and decreases GI function
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Pancreas
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Located near the duodenum
Has both exocrine and endocrine functions
Endocrine component - small percentage
of the total volume of the organ
Pancreatic islets (islets of Langerhans):
groups of cells scattered throughout the
pancreas
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Alpha cells - produce glucagon
 Beta cells - produce insulin
 Delta cells - produce somatostatin
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Pancreatic Hormones
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Insulin: lowers blood glucose levels by
causing glucose, amino acids, and fatty
acids to be absorbed into body cells
Glucagon: lowers blood glucose levels by
stimulating liver cells to convert glycogen
to glucose and by stimulating
gluconeogenesis
Somatostatin: inhibits secretion of insulin,
glucagon, and GH; diminishes GI activity
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Testes
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Interstitial cells: clumps
of endocrine cells
Produce androgens
when stimulated by LH
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Interstitial cell stimulating
hormone (ICSH) in the male
Testosterone: primary
androgen
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Provides for development of
male secondary sex
characteristics and
accessory sex glands
Activates spermatogenesis
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Ovaries
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Produce ova and hormones in cycles
Controlled by follicle stimulating hormone
(FSH) and luteinizing hormone (LH)
Hormone groups produced in the ovaries:
Estrogens
2. Progestins
1.
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Estrogens
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FSH stimulates ovarian follicles to develop
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Cells of follicles produce and release
estrogens
Amount of estrogen produced increases as
follicle grows
Increasing estrogen levels accelerate
physical and behavioral changes
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Estrogens
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Feedback to anterior pituitary
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Cause anterior pituitary gland to reduce the
production of FSH and increase the production
of LH
When follicle is fully mature, LH level
peaks
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In most animal species, ovulation occurs when
LH level peaks
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Progestins
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Group of hormones produced by corpus
luteum
High LH level stimulates cells of empty
follicle to multiply and develop into corpus
luteum
Progesterone - principal progestin
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Helps prepare uterus to receive the fertilized
ovum; needed to maintain pregnancy
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Progestins
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In pregnant female, hormone signal is sent
from uterus, and corpus luteum is
maintained
If no pregnancy occurs, lack of hormone
signal causes corpus luteum to shrink and
disappear
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Kidneys
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Produce erythropoietin - stimulates red
bone marrow to increase production of red
blood cells
Production of erythropoietin stimulated by
hypoxia
As red blood cell production increases,
more oxygen feeds back to kidneys and
slows the production of erythropoietin
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Stomach
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Gastrin: produced by cells in the wall of
the stomach
Secretion stimulated by presence of food
in the stomach
Stimulates gastric glands to secrete
hydrochloric acid and digestive enzymes
Encourages muscular contractions of the
stomach wall
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Small Intestine
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Secretin and cholecystokinin produced by
cells in lining of small intestine
Secretion occurs in response to presence
of chyme in duodenum
Secretin stimulates pancreas to secrete
fluid to neutralize acidic chyme after it
passes out of the stomach
Cholecystokinin stimulates pancreas to
release digestive enzymes into the
duodenum
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Placenta
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Surrounds a developing fetus during
pregnancy
Acts as an interface with the maternal
circulation
Produces hormones to help support and
maintain pregnancy
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Estrogen and progesterone
Chorionic gonadotropin (some species)
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Thymus
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Extends cranially from the level of the
heart up into neck region along both sides
of the trachea
Large in young animals, atrophies later in
life
Function involves hormones or
hormonelike chemical substances (e.g.,
thymosin and thymopoietin)
Seems to cause certain cells to be
transformed into T-lymphocytes
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Pineal Body
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Located at caudal end of the cleft that
separates the two cerebral hemispheres
Influences cyclic activities in the body
Melatonin - hormonelike substance called
that seems to affect moods and wakesleep cycles
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May also play a role in the timing of seasonal
estrous cycles in some species
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Prostaglandins
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Hormonelike substances derived from
unsaturated fatty acids
Produced in a variety of body tissues (skin,
intestine, brain, kidney, lungs, reproductive
organs, and eyes)
Nine main groups - designated A through I
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Subscript numbers and Greek letters designate
subgroups
Influence blood pressure, blood clotting,
inflammation, GI, respiratory, reproductive,
and kidney function
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