Endocrine System PDF

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This document is a PowerPoint presentation on the endocrine system. It discusses hormones, their functions, and how they regulate various bodily processes.

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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
Signaling molecules sent out by the endocrine
system are called hormones
Hormones may have effects in a single location or
throughout the body
Only cells with receptors for a certain hormone
can respond to it
The endocrine system is well adapted for
coordinating gradual changes that affect the
entire body

© 2016 Pearson Education, Inc.
 Hormone Overview
Hormones are produced by specialized cells in
endocrine glands
Cells secrete hormones into interstitial fluid
Blood transfers hormones to target sites
These hormones regulate the activity of other
cells.
What type of (a) Signaling by hormones

signaling was STIMULUS

Endocrine
this? cell

Hormone

Signal
travels
everywhere.

Long-distance:
Called “endocrine” or Blood
vessel
hormonal signaling

Response
Hormones control several major processes

– Reproduction
– Growth and development
– Mobilization of body defenses
– Maintenance of much of homeostasis (electrolyte,
water and nutrient balance of the blood)
– Regulation of metabolism
©
2 Thyroid gland Pineal gland Hypothalamus
Thyroid hormone (T3 and T4 ) Melatonin
0 Calcitonin
1
6
Pituitary gland
P Parathyroid glands Posterior pituitary
e Parathyroid hormone (PTH) Oxytocin
a Vasopressin, also
r Adrenal glands (atop kidneys) called antidiuretic
Adrenal medulla hormone (ADH )
s Epinephrine and norepinephrine
o Anterior pituitary
Adrenal cortex Follicle-stimulating
n Glucocorticoids hormone (FSH)
E Mineralocorticoids
Luteinizing
d hormone (LH)
u Thyroid-stimulating
Ovaries (in females) hormone (TSH)
c Adrenocorticotropic
Estrogens
a Progesterone hormone (ACTH)
t Prolactin
i Growth hormone (GH)
Testes (in males) Melanocyte-stimulating
o Androgens hormone (MSH)
n
, Pancreas
I Insulin
Glucagon
n
c
 Mechanisms of Hormone Action
Hormones affect only certain tissues or organs
(target cells or organs)
Target cells must have specific protein
receptors to be affected by a hormone
Hormone binding influences the working of
the cells Think of the binding of
hormone to target cell like
puzzle pieces fitting together.
 Hormone Solubility
Nonsteroidal hormones are soluble in water but
not in lipids
These hormones cannot pass through the plasma
membrane of target cells
Instead, they bind to cell-surface receptors, and
that triggers events leading to a cellular response
The intracellular response is called signal
transduction
A signal transduction pathway typically has
multiple steps
 Steroidal hormones are lipid soluble and bind to
receptors inside cells
When bound by the hormone, the hormone-
receptor complex moves into the nucleus
There, the receptor alters transcription of
particular genes

© 2016 Pearson Education, Inc..

Multiple Effects of Hormones
Many hormones elicit more than one response
For example, epinephrine is secreted by the
adrenal glands and can raise blood glucose levels,
increase blood flow to muscles, and decrease
blood flow to the digestive system
Target cells vary in their response to a hormone
because they differ in their receptor types or in
the molecules that produce the response
©
2 (a) Liver cell (b) Smooth muscle cell (c) Smooth muscle cell
0 in wall of blood in wall of blood
1 vessel that supplies vessel that supplies
6 skeletal muscle intestines
P Epinephrine Epinephrine Epinephrine
e
a b receptor b receptor a receptor
r Glycogen
s deposits
o
n
E
d
u Glucose
c
a
t Glycogen breaks down Cell relaxes. Cell contracts.
i and glucose is released
o from cell.
n
Blood vessel dilates, Blood vessel
, Blood glucose level increasing flow to constricts, decreasing
I increases. skeletal muscle. flow to intestines.
n
c
 Regulating and Conforming
An animal that is a regulator uses internal
mechanisms to control internal change despite
external fluctuation
An animal that is a conformer allows its internal
condition to change in accordance with external
changes
 40
River otter (temperature regulator)
Body temperature (C)

30

20
Largemouth bass
(temperature conformer)
10

0
0 10 20 30 40
Ambient (environmental)
temperature (C)
 Animals achieve homeostasis by maintaining a
variable at or near a particular value, or set point
Fluctuations above or below the set point serve
as
a stimulus; these are detected by a sensor and
trigger a response
The response returns the variable to the set point

© 2016 Pearson Education, Inc.
 NORMAL RANGE
for internal variable

Response Stimulus: change in
internal variable

Control center Sensor
 Homeostasis in animals relies largely on negative
feedback, a control mechanism that reduces the
stimulus (positive feedback reinforces a stimulus
to increase the response)
Homeostasis moderates, but does not eliminate,
changes in the internal environment
Set points and normal ranges for homeostasis are
usually stable, but certain regulated changes in
the internal environment are essential

© 2016 Pearson Education, Inc..
Response: Blood
vessels in skin dilate.
Thermostat in
hypothalamus
activates cooling
mechanisms. Response:
Sweat

Body temperature Body temperature
increases. decreases.

NORMAL BODY
TEMPERATURE
(approximately
36–38C)

Body temperature Body temperature
increases. decreases.

Response: Shivering

Thermostat in
hypothalamus
Response: Blood activates warming
vessels in skin mechanisms.
constrict.
 Thermostat turns
heater off.
Room temperature Room temperature
increases. decreases.

ROOM
TEMPERATURE
AT 20C (set point)

Room temperature Thermostat Room temperature
increases. turns decreases.
heater on.