1. The Endocrine System
Teenagers, Hormones and Shaving Cream…Oh My!

2. Endocrine System Hormones

3. Regulation Why are hormones needed?
chemical messages from one body part to another
communication needed to coordinate whole body
homeostasis & regulation
metabolism
growth
development
maturation
reproduction
growth hormones

4. Regulation & Communication
Animals rely on 2 systems for regulation
endocrine system
system of ductless glands
secrete chemical signals directly into blood
chemical travels to target tissue
slow, long-lasting response
nervous system
system of neurons
transmits “electrical” signal & release neurotransmitters to target tissue
fast, short-lasting response
Hormones coordinate slower but longer–acting responses to stimuli such as stress, dehydration, and low blood glucose levels. Hormones also regulate long–term developmental processes by informing different parts of the body how fast to grow or when to develop the characteristics that distinguish male from female or juvenile from adult. Hormone–secreting organs, called endocrine glands, are referred to as ductless glands because they secrete their chemical messengers directly into extracellular fluid. From there, the chemicals diffuse into the circulation.

5. Regulation by chemical messengers
Neurotransmitters released by neurons
Hormones release by endocrine glands
endocrine gland
neurotransmitter
axon
hormone carried by blood
receptor proteins
receptor proteins
target cell

6. Classes of Hormones Protein-based hormones Lipid-based hormones
polypeptides
small proteins: insulin, ADH
glycoproteins
large proteins + carbohydrate: FSH, LH
amines
modified amino acids: epinephrine, melatonin
Lipid-based hormones
steroids
modified cholesterol: sex hormones, aldosterone
insulin

7. How do hormones act on target cells
Lipid-based hormones
hydrophobic & lipid-soluble
diffuse across membrane & enter cells
bind to receptor proteins in cytoplasm & nucleus
bind to DNA as transcription factors
Protein-based hormones
hydrophilic & not lipid soluble
can’t diffuse across membrane
receptor proteins in cell membrane
trigger secondary messenger pathway
activate internal cellular response
enzyme action, uptake or secretion of molecules…

8. Action of lipid (steroid) hormones
target cell
blood S S 1
protein
carrier S 2
cytoplasm
receptor protein 4
transcription factor S 3
DNA 5
mRNA
protein
plasma membrane
nucleus
ex: growth factors (hair, bone, muscle, gametes)

9. Action of protein hormones
signal-transduction pathway 1
signal
protein hormone P
plasma membrane
activates ion channel or enzyme
receptor protein
2° messenger
transduction
transduction: the action or process of converting something and especially energy or a message into another form
ATP
activates
enzyme 2
secondary
messenger system
cytoplasm
activates
enzyme
produces an action 3
response
target cell

10. Signal Transduction pathway1
protein hormone P
activates enzyme
G protein
cAMP 3
receptor protein 2
ATP
GTP
activates
enzyme
secondary
messenger system
activates
enzyme 4
cytoplasm
produces an action 5

11. Action of epinephrine (adrenalin)
adrenal gland 1
epinephrine
activates adenylyl cyclase
G protein
cAMP 3
receptor
protein 2
ATP
GTP
activates
protein kinase-A
cytoplasm 4
released to blood
activates
phosphorylase
glycogen
glucose
liver cell 5

12. Benefits of a 2° messenger system1
signal
Activated adenylyl cyclase
receptor protein 2
Not yet
activated
amplification 4
amplification 3
Every where but here!
cAMP
amplification 5
GTP
G protein
protein kinase 6
amplification
Amplification!
enzyme 7
amplification
FAST response!
product

13. Maintaining homeostasis
Negative Feedback Model for anterior pituitary
hormone 1
gland
lowers body condition
high
specific body condition
low
raises body condition
gland
hormone 2

14. Controlling Body Temperature
Nervous System Control
Feedback
Controlling Body Temperature
nerve signals
brain
sweat
dilates surface blood vessels
high
body temperature
low
constricts surface blood vessels
shiver
brain
nerve signals

15. Regulation of Blood Sugar
Endocrine System Control
Feedback
Regulation of Blood Sugar
insulin
body cells take up sugar from blood
liver stores sugar
reduces appetite
pancreas
liver
high
blood sugar level
low
liver releases sugar
triggers hunger
pancreas
liver
glucagon

16. Insulin Unlocks gated glucose channels
Decides if glucose burned or stored as glycogen or converted to fat
Secreted in direct response to amount of glucose
Fat storage hormone

17. Cause of heart disease? Inflammation causes: Reduce inflammation:
High blood pressure
Heart disease
Over activity of the immune system
Reduce inflammation:
Moderate exercise
Improve diet with low carbs
Lower stress and cortisol levels

18. increased water reabsorption
Endocrine System Control
Feedback
Blood Osmolarity
ADH
pituitary
increased water reabsorption
increase thirst
nephron
high
nephron
blood osmolarity
blood pressure
JuxtaGlomerular Apparatus
low
nephron
(JGA)
increased water & salt reabsorption
adrenal gland
renin
aldosterone
angiotensin

19. Nervous & Endocrine systems linked
Hypothalamus = “master control center”
nervous system
receives information from nerves around body about internal conditions
regulates release of hormones from pituitary
Pituitary gland = “master gland”
endocrine system
secretes broad range of hormones regulating other glands
hypothalamus
anterior
pituitary
posterior

20. MASTER (gland) and Servant
link

21. Thyroid gland
Hypothalamus
anterior
pituitary
gonadotropic
hormones:
follicle-
stimulating
hormone (FSH)
& luteinizing
hormone (LH)
Mammary
glands
in mammals
Muscles
of uterus
Kidney
tubules
posterior
thyroid-stimulating
hormone
(TSH)
antidiuretic
(ADH)
Adrenal
cortex
Bone
and muscle
Testis
Ovary
Melanocyte
in amphibian
adrenocorticotropic
hormone (ACTH)
melanocyte-stimulating hormone
(MSH)
oxytocin
prolactin (PRL)
growth hormone (GH)

22. Hormones of the Anterior Pituitary
Sung to the tune of “ABC” song!
Come on, Sing along now………
ACTH, LH, FSH, GH, TSH, PROLACTIN…and MSH!

23. metamorphosis & maturation
Homology in hormones
What does this tell you about these hormones?
How could these hormones have different effects?
prolactin
growth hormone
same gene family
gene duplication?
amphibians
metamorphosis & maturation
birds
fat metabolism
fish
salt & water balance
mammals
growth & development
milk production
The most remarkable characteristic of prolactin (PRL) is the great diversity of effects it produces in different vertebrate species. For example, prolactin stimulates mammary gland growth and milk synthesis in mammals; regulates fat metabolism and reproduction in birds; delays metamorphosis in amphibians, where it may also function as a larval growth hormone; and regulates salt and water balance in freshwater fishes. This list suggests that prolactin is an ancient hormone whose functions have diversified during the evolution of the various vertebrate groups.
Growth hormone (GH) is so similar structurally to prolactin that scientists hypothesize that the genes directing their production evolved from the same ancestral gene. Gene duplication!

24. 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
The thyroid gland produces two very similar hormones derived from the amino acid tyrosine: triiodothyronine (T3), which contains three iodine atoms, and tetraiodothyronine, or thyroxine (T4), which contains four iodine atoms. In mammals, the thyroid secretes mainly T4, but target cells convert most of it to T3 by removing one iodine atom. Although both hormones are bound by the same receptor protein located in the cell nucleus, the receptor has greater affinity for T3 than for T4. Thus, it is mostly T3 that brings about responses in target cells.
tyrosine +
iodine
thyroxine

25. Goiter
Iodine deficiency causes thyroid to enlarge as it tries to produce thyroxine

26. Regulation of Blood Calcium
Endocrine System Control
Feedback
Regulation of Blood Calcium
calcitonin
 kidney filters Ca++
Ca++ deposited in bones
high
blood calcium level (10 mg/100mL)
 Ca++ uptake in intestines
low
activated Vitamin D
parathyroid
bones release Ca++
 kidney reabsorbs Ca++
Parathyroid
hormone

27. Female reproductive cycle
Feedback
Female reproductive cycle
egg matures &
is released (ovulation)
builds up uterus lining
estrogen
ovary
corpus luteum
FSH & LH
fertilized egg
maintains uterus lining
HCG
yes
pregnancy
GnRH no
progesterone
corpus luteum breaks down
progesterone drops
menstruation
maintains uterus lining
hypothalamus

28. A man in MENOPAUSE?
As my wife and I sat on the couch one night this past winter, reading and half-watching the inevitable HGTV, I started sweating hard and my face got so fevered and flushed that I felt as if I were peering into an oven.
I turned to Deb and said, “Man, I’m having a wicked hot flash.” And she said, “Me, too.” Then we laughed. You laugh a lot — unless your hormones are making you cry — when you’re having menopause with your wife.
I was in the middle of treatment for an aggressive case of prostate cancer last winter, and it included a six-month course of hormone therapy. My Lupron shots suppressed testosterone, which is the fuel for prostate cancer.
Hand in hand with the hot flashes came the food cravings. I lusted after Cheetos and Peanut Butter M&M’s, maple-walnut milkshakes, and spaghetti and meatballs buried in a blizzard of Parmesan. Isn’t it funny how cravings very rarely involve tofu, bean curd or omega-3 oils?

29. You don’t have it as bad as these kids!
Don’t you just hate puberty sometimes? Acne, voice cracking, getting your period when you’re not ready, mood swing, etc?
You don’t have it as bad as these kids!

30. Disorders of sexual differentiation
Pseudo-hermaphrodites have phenotype opposite gonadal tissue
Androgen Insensitivity Syndrome: female phenotype, XY genotype, has gene for mutated testosterone receptor, becomes default female
5-alpha Reductase Deficiency: born with female phenotype, XY genotype, at puberty more testosterone is produced so finally get high enough levels to begin testes descending and male 2۫ sex characteristics.

31. The Endocrine Glands HW Pass Question: What is a Hypophysis Operation?1 2 3.
The Endocrine Glands 4 5
6..
HW Pass Question: What is a Hypophysis Operation? 7. 8.

32. Any Questions??
Robert Wadlow
8' 11"