Midterm-Lec 7 PDF - The Endocrine System

Summary

This document is a lecture slide presentation on the endocrine system, covering various aspects like hormone types, mechanisms of action, and control of hormone release. It also includes information on the functions of major endocrine organs such as the pituitary and thyroid glands. The document was presented by Jerry L. Cook at Sam Houston University.

Full Transcript

9
PART A
The Endocrine System

PowerPoint® Lecture Slide Presentation by Jerry L. Cook, Sam Houston University

ESSENTIALS
OF HUMAN
ANATOMY
& PHYSIOLOGY
EIGHTH EDITION

ELAINE N. MARIEB

Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings
 The Endocrine System
▪ Second messenger system of the body
▪ Uses chemical messages (hormones)
that are released into the blood
▪ Hormones control several major
processes
▪ Reproduction
▪ Growth and development
▪ Mobilization of body defenses
▪ Maintenance of much of homeostasis
▪ Regulation of metabolism
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Hormone Overview
▪Hormones are produced by
specialized cells
▪Cells secrete hormones into
extracellular fluids
▪Blood transfers hormones to
target sites
▪These hormones regulate the
activity of other cells
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Hormone Overview

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The Chemistry of Hormones
▪Amino acid-based hormones
▪Proteins
▪Peptides
▪Amines
▪Steroids – made from
cholesterol
▪Prostaglandins – made from
highly active lipids
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Mechanisms of Hormone Action
▪Hormones affect only certain
tissues or organs (target cells or
organs)
▪Target cells must have specific
protein receptors
▪Hormone binding influences the
working of the cells
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Hormone Overview

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Effects Caused by Hormones
▪Changes in plasma membrane
permeability or electrical state
▪Synthesis of proteins, such as
enzymes
▪Activation or inactivation of
enzymes
▪Stimulation of mitosis

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Steroid Hormone Action
▪ Diffuse through the plasma
membrane of target cells
▪ Enter the nucleus
▪ Bind to a specific protein within
the nucleus
▪ Bind to specific sites on the cell’s
DNA
▪ Activate genes that result in
synthesis of new proteins
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 Steroid Hormone Action

TO PLAY
PRESS

PRESS
TO PLAY STEROID HORMONE ANIMATION
Figure 9.1a
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Nonsteroid Hormone Action
▪ Hormone binds to a membrane
receptor
▪ Hormone does not enter the cell
▪ Sets off a series of reactions that
activates an enzyme
▪ Catalyzes a reaction that produces a
second messenger molecule
▪ Oversees additional intracellular
changes to promote a specific response
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 Nonsteroid Hormone Action

TO PLAY
PRESS

PRESS
TO PLAY NONSTEROID HORMONE ANIMATION
Figure 9.1b
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Control of Hormone Release
▪Hormone levels in the blood are
maintained by negative feedback
▪A stimulus or low hormone
levels in the blood triggers the
release of more hormone
▪Hormone release stops once an
appropriate level in the blood is
reached
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Hormonal Stimuli of Endocrine Glands

▪Endocrine
glands are
activated by
other hormones

Figure 9.2a
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Humoral Stimuli of Endocrine Glands
▪Changing
blood levels of
certain ions
stimulate
hormone
release

Figure 9.2b
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Humoral Stimuli of Endocrine Glands
▪Changing
blood levels of
certain ions
stimulate
hormone
release

Figure 9.2b
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Neural Stimuli of Endocrine Glands
▪Nerve impulses
stimulate
hormone release
▪Most are under
control of the
sympathetic
nervous system
Figure 9.2c
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Neural Stimuli of Endocrine Glands

Figure 9.2c
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Location of Major Endrocrine Organs

Figure 9.3
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 Pituitary Gland
▪Size of a grape
▪Hangs by a stalk from the
hypothalamus
▪Protected by the sphenoid bone
▪Has two functional lobes
▪Anterior pituitary – glandular tissue
▪Posterior pituitary – nervous tissue

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Hormones of the Anterior Pituitary
▪ Six anterior pituitary hormones
▪ Two affect non-endocrine targets
▪ Four stimulate other endocrine glands
(tropic hormones)
▪ Characteristics of all anterior pituitary
hormones
▪ Proteins (or peptides)
▪ Act through second-messenger systems
▪ Regulated by hormonal stimuli, mostly
negative feedback
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Hormones of the Anterior Pituitary

Figure 9.4
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Growth Hormone (GH)
▪General metabolic hormone
▪Major effects are directed to
growth of skeletal muscles and
long bones
▪Causes amino acids to be built
into proteins
▪Causes fats to be broken down for
a source of energy
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 Functions of Other Anterior Pituitary
Hormones
▪ Prolactin (PRL)
▪ Stimulates and maintains milk
production following childbirth
▪ Function in males is unknown
▪ Adrenocorticotropic hormone (ACTH)
▪ Regulates endocrine activity of the
adrenal cortex
▪ Thyroid-stimulating hormone (TSH)
▪ Influences growth and activity of the
thyroid
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 Functions of Other Anterior Pituitary
Hormones
▪ Gonadotropic hormones
▪ Regulate hormonal activity of the
gonads
▪ Follicle-stimulating hormone (FSH)
▪ Stimulates follicle development in
ovaries
▪ Stimulates sperm development in
testes
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 Functions of Other Anterior Pituitary
Hormones
▪ Gonadotropic hormones (continued)
▪ Luteinizing hormone (LH)
▪ Triggers ovulation
▪ Causes ruptured follicle to
become the corpus luteum
▪ Stimulates testosterone
production in males
▪ Referred to as interstitial cell-
stimulating hormone (ICSH)
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Functions of Other Anterior Pituitary
Hormones

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Pituitary - Hypothalamus Relationship
▪ Release of hormones is
controlled by releasing and
inhibiting hormones
produced by the
hypothalamus

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Pituitary - Hypothalamus Relationship
▪Hypothlamus produces two
hormones that are
transported to
neurosecretory cells of the
posterior pituitary

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Pituitary - Hypothalamus Relationship
▪The posterior pituitary is not
strictly an endocrine gland,
but does release hormones

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Hormones of the Posterior Pituitary
▪ Oxytocin
▪ Stimulates contractions of the uterus
during labor
▪ Causes milk ejection
▪ Antidiuretic hormone (ADH)
▪ Can inhibit urine production
▪ In large amounts, causes vasoconstriction
leading to increased blood pressure
(vasopressin)

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Hormones of the Posterior Pituitary

Figure 9.5
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1

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Thyroid Gland
▪Found at the base of the throat
▪Consists of two lobes and a
connecting isthmus
▪Produces two hormones
▪Thyroid hormone
▪Calcitonin

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Thyroid Gland

Figure 9.6
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Thyroid Hormone
▪Major metabolic hormone
▪Composed of two active iodine-
containing hormones
▪Thyroxine (T4) – secreted by
thyroid follicles
▪Triiodothyronine (T3) –
conversion of T4 at target
tissues
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Thyroid Hormone
▪The thyroid gland releases
triiodothyronine (T3) and
thyroxine (T4). These
hormones play an important role
in the regulation of weight,
energy levels, internal
temperature, skin, hair, nail
growth, and metabolism
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 Calcitonin
▪ Decreases blood
calcium levels by
causing its
deposition on bone
▪ Antagonistic to
parathyroid
hormone
▪ Produced by C
(parafollicular) cells
Figure 9.9
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Parathyroid Glands
▪Tiny masses on the posterior of the
thyroid
▪Secrete parathyroid hormone
▪Stimulate osteoclasts to remove
calcium from bone
▪Stimulate the kidneys and
intestine to absorb more calcium
▪Raise calcium levels in the blood
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Adrenal Glands
▪Two glands
▪Cortex – outer glandular
region in three layers
▪Medulla – inner neural
tissue region
▪Sits on top of the kidneys

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 Hormones of the Adrenal Cortex
▪ Mineralocorticoids (mainly aldosterone)
▪ Produced in outer adrenal cortex
▪ Regulate mineral content in blood,
water, and electrolyte balance
▪ Target organ is the kidney
▪ Production stimulated by renin and
aldosterone
▪ Production inhibited by atrial
natriuretic peptide

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Neural Stimuli of Endocrine Glands

Figure 9.2c
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Hormones of the Adrenal Cortex

Figure 9.10
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 Hormones of the Adrenal Cortex
▪Glucocorticoids (including
cortisone and cortisol)
▪Produced in the middle layer of
the adrenal cortex
▪Promote normal cell metabolism
▪Help resist long-term stressors
▪Released in response to increased
blood levels of ACTH
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Hormones of the Adrenal Cortex
▪Sex hormones
▪Produced in the inner layer of
the adrenal cortex
▪Androgens (male) and some
estrogen (female)

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Hormones of the Adrenal Medulla
▪Produces two similar hormones
(catecholamines)
▪Epinephrine
▪Norepinephrine
▪These hormones prepare the body
to deal with short-term stress

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Roles of the Hypothalamus and Adrenal
Glands in the Stress Response

Figure 9.12
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Pancreatic Islets
▪ The pancreas is a mixed gland
▪ The islets of the pancreas produce
hormones
▪ Insulin – allows glucose to cross
plasma membranes into cells from
beta cells
▪ Glucagon – allows glucose to enter
the blood from alpha cells
▪ These hormones are antagonists that
maintain blood sugar homeostasis
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Pancreatic Hormones and Blood Sugar

Figure 9.14
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Pineal Gland
▪Found on the third ventricle of the
brain
▪Secretes melatonin
▪Helps establish the body’s wake
and sleep cycles
▪May have other as-yet-
unsubstantiated functions

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Thymus
▪Located posterior to the sternum
▪Largest in infants and children
▪Produces thymosin
▪Matures some types of white
blood cells
▪Important in developing the
immune system

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 Hormones of the Ovaries
▪ Estrogens
▪ Produced by Graafian follicles or the
placenta
▪ Stimulates the development of secondary
female characteristics
▪ Matures female reproductive organs
▪ Helps prepare the uterus to receive a
fertilized egg
▪ Helps maintain pregnancy
▪ Prepares the breasts to produce milk
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Hormones of the Ovaries
▪Progesterone
▪Produced by the corpus
luteum
▪Acts with estrogen to bring
about the menstrual cycle
▪Helps in the implantation of
an embryo in the uterus

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Hormones of the Testes
▪ Interstitial cells of testes are hormone-
producing
▪ Produce several androgens
▪ Testosterone is the most important
androgen
▪ Responsible for adult male
secondary sex characteristics
▪ Promotes growth and maturation
of male reproductive system
▪ Required for sperm cell production
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Other Hormone-Producing Tissues and
Organs
▪Parts of the small intestine
▪Parts of the stomach
▪Kidneys
▪Heart
▪Many other areas have scattered
endocrine cells

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Endocrine Function of the Placenta
▪Produces hormones that
maintain the pregnancy
▪Some hormones play a part in
the delivery of the baby
▪Produces HCG in addition to
estrogen, progesterone, and
other hormones
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Endocrine Function of the Placenta

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Endocrine Function of the Placenta

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 Developmental Aspects of the Endocrine
System
▪ Most endocrine organs operate smoothly until
old age
▪ Menopause is brought about by lack of
efficiency of the ovaries
▪ Problems associated with reduced estrogen
are common
▪ Growth hormone production declines with
age
▪ Many endocrine glands decrease output
with age
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