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Transcript
Chapter 45 ~ Chemical Signals in Animals
Endocrine system ~Hormones
growth hormones
Regulatory systems
•
•
•
•
•
Hormone: chemical signal secreted into
body fluids (blood) communicating
regulatory messages
Target cells: body cells that respond to
hormones
Endocrine system/glands: hormone
secreting system/glands (ductless);
exocrine glands secrete chemicals
(sweat, mucus, enzymes) through ducts
Neurosecretory cells: actual cells that
secrete hormones
Feedback mechanisms : negative and
positive
Local regulators: cells adjacent to or near point of secretion
• Growth factors
proteins for cell proliferation
• Nitric oxide (NO)
neurotransmitter and a local regulator
• If oxygen in blood falls, endothelial cells in blood
vessels make and release NO
• NO activates enzyme, relaxes smooth muscle cells
cause vasodilation
• Viagra: prolonged activity of NO pathway
Prostaglandins
• In semen it stimulates smooth muscle in
female uterus to contract and help sperm
reach egg
• secreted by cells in placenta to cause
contraction in childbirth
• Immune system: promote fever, inflammation,
&pain ( Ibuprofin and aspirin inhibit)
• Blood: regulate aggregation of platelets
involved in blood clotting
• Help protect the lining of the stomach
Regulation
• Why are hormones needed?
– chemical messages from one body part
to another
– communication needed to coordinate
whole body
– daily homeostasis & regulation of large
scale changes
• solute levels in blood
– glucose, Ca++, salts, etc.
•
•
•
•
•
metabolism
growth
development
maturation
reproduction
growth hormones
Regulation & Communication
• Animals rely on 2 systems for regulation
– endocrine system (paracrine and autocrine)
• system of ductless glands
–
–
–
–
secrete chemical signals directly into blood
chemical travels to target tissue
target cells have receptor proteins
slow, long-lasting response
– nervous system
• system of neurons
– transmits “electrical” signal &
release neurotransmitters to
target tissue
– fast, short-lasting response
Regulation by chemical messengers
• Neurotransmitters released by neurons
• Hormones release by endocrine glands
• Neurohormones specialized neuron secretory cells
endocrine gland
neurotransmitter
axon
hormone carried
by blood
receptor proteins
receptor proteins
target cell
Lock & Key
system
Classes of Hormones: water or lipid soluble
• Protein-based hormones
– polypeptides
• small proteins: insulin, ADH
insulin
– glycoproteins
• large proteins + carbohydrate: FSH, LH
– amines
• modified amino acids: epinephrine, melatonin
Water soluble
secreted by exocytosis
travel freely in blood stream, bind to cell-surface receptors,
induce changes in cytoplasmic molecules to alter gene
transcription
Classes of Hormones Cont.
• Lipid-based hormones
– steroids
• modified cholesterol: sex hormones, aldosterone
• Diffuse into target cells
• Bind to intracellular signal receptors
• Can cross the plasma membrane and nuclear
membrane
• Trigger changes in gene transcription
Mode of Action: Chemical Signaling
• 1- Plasma membrane reception
signal-transduction pathways (neurotransmitters, growth factors, most
hormones)
• 2- Cell nucleus reception
steroid hormones, thyroid hormones, some local regulators
•
•
Action of lipid (steroid) hormones
steroid hormone
target cell
S
S
cytoplasm
blood
1
S
protein
carrier
cross cell membrane
2
binds to receptor protein
becomes
transcription factor
5
S
3
mRNA read by ribosome
plasma membrane
DNA
4
mRNA
nucleus
6
protein
7
protein secreted
ex: secreted protein = growth factor (hair, bone, muscle, gametes)
signal-transduction pathway
Action of protein hormones
1
protein
hormone
signal
P
binds to receptor protein
plasma membrane
activates
G-protein
activates enzyme
cAMP
receptor
protein
activates
cytoplasmic
signal
cytoplasm
target cell
GTP
acts as 2° messenger
transduction
ATP
ATP
activates
enzyme
2
secondary
messenger
system
activates
enzyme
produces an action
3
response
Benefits of a 2° messenger system
signal
1
Activated adenylyl cyclase
receptor protein
2
Not yet
activated
amplification
4
3
GTP
amplification
cAMP
amplification
5
G protein
protein kinase
6
Amplification!
amplification
enzyme
Cascade multiplier!
FAST response!
7
amplification
product
Maintaining homeostasis
hormone 1
lowers
body condition
gland
high
specific body condition
low
raises
body condition
gland
hormone 2
Negative Feedback
Model
Vertebrate Endocrine System
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Tropic hormones : a hormone that
has another endocrine gland as a
target
Hypothalamus: pituitary
Pituitary gland
Pineal gland
Thyroid gland
Parathyroid glands
Thymus
Adrenal glands
Pancreas
Gonads (ovary, testis)
Nervous & Endocrine systems linked
• Hypothalamus = “master nerve control center”
– nervous system
– receives information from nerves around body about
internal conditions
– releasing hormones: regulates release of hormones from
pituitary
• Pituitary gland = “master gland”
– endocrine system
– secretes broad range
of “tropic” hormones
regulating other
glands in body
hypothalamus
posterior
pituitary
anterior
tropic hormones = target endocrine glands
hypothalamus
thyroid-stimulating
hormone
(TSH)
Thyroid gland
posterior
pituitary
anterior
pituitary
antidiuretic
hormone
(ADH)
Kidney
tubules
Muscles
of uterus
Adrenal
cortex
gonadotropic
hormones:
folliclestimulating
hormone (FSH)
& luteinizing
hormone (LH)
Melanocyte
in amphibian
Bone
and muscle
Testes
Ovaries
Mammary
glands
in mammals
The hypothalamus & pituitary, I
•
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•
Releasing and inhibiting hormones
Anterior pituitary:
Growth (GH):bones
√gigantism/dwarfism
√acromegaly
Prolactin (PRL):mammary glands;
milk production
Follicle-stimulating (FSH) &
Luteinizing (LH):ovaries/testes
Thyroid-stimulating (TSH): thyroid
Adrenocorticotropic (ACTH):
adrenal cortex
Melanocyte-stimulating (MSH)
Endorphins~natural ‘opiates’; brain
pain receptors
The pituitary, II
• The posterior pituitary:
• Oxytocin
uterine and mammary gland
cell contraction
• Antidiuretic (ADH)
retention of water by
kidneys
The pineal, thyroid, & parathyroid
• Melatonin pineal gland;
biological rhythms
• Thyroid hormones:
Calcitonin
lowers blood calcium
Thyroxine
metabolic processes
• Parathyroid (PTH)
raises blood calcium
Endocrine System Control
Regulation of Blood Calcium
Feedback
calcitonin
 kidney
reabsorption
of Ca++
thyroid
Ca++ deposited
in bones
high
blood calcium level
 Ca++ uptake
in intestines
(10 mg/100mL)
low
activated Vitamin D
bones
release Ca++
 kidney
reabsorption
of Ca++
parathyroid
parathyroid hormone (PTH)
Regulating metabolism
• Hypothalamus
– TRH = TSH-releasing hormone
• Anterior Pituitary
– TSH = thyroid stimulating hormone
• Thyroid
– produces thyroxine hormones
– metabolism & development
•
•
•
•
•
•
•
bone growth
mental development
metabolic use of energy
blood pressure & heart rate
muscle tone
digestion
reproduction
tyrosine
+
iodine
thyroxines
The pancreas
• Islets of Langerhans
• Alpha cells: glucagon
•
raises blood glucose levels by
promoting the release of glucose from
the liver (glycogen)
• Beta cells: insulin
•
lowers blood glucose levels by
triggering uptake of glucose from
blood into body cells
• Type I diabetes mellitus
(insulin-dependent; autoimmune
disorder)
• Type II diabetes mellitus
(non-insulin-dependent; reduced
responsiveness in insulin targets)
Endocrine System Control
Feedback
Regulation of Blood
Sugar
islets of Langerhans
insulin
beta islet cells
liver stores
glycogen
body
cells take
up sugar
from blood
pancreas
liver
high
blood sugar level
(90mg/100ml)
low
triggers
hunger
liver
releases
glucose
liver
pancreas
glucagon
islets of Langerhans
alpha islet cells
reduces
appetite
The adrenal glands
• Adrenal medulla (catecholamines): •epinephrine & norepinephrine~
increase basal metabolic rate (blood glucose and pressure)
• Adrenal cortex (corticosteroids): •glucocorticoids (cortisol)~ raise blood
glucose •mineralocorticoids (aldosterone)~ reabsorption of Na+ and K+
The gonads
• Steroid hormones:
precursor is cholesterol
• androgens
(testosterone)~ sperm
formation; male secondary sex
characteristics; gonadotropin
• estrogens
(estradiol)~uterine lining growth;
female secondary sex
characteristics; gonadotropin
• progestins
(progesterone)~uterine
lining growth
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