1. Endocrine System Hormones Reproduction

2. Hormones Why are hormones needed?
chemical messages from one body part to cells in other parts of body
communication needed to coordinate whole body
maintaining homeostasis
energy production
growth
development
maturation
reproduction
growth hormones

3. Endocrine System Endocrine system releases hormones
glands which secrete chemical signals into blood
chemicals cause changes in other parts of body
slow, long-lasting response
growth hormones
sex hormones
response hormones
metabolism hormones
and more….
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.

4. 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

5. Body Regulation Nervous system & Endocrine system work together
hypothalamus
“master nerve control center”
receives information from nerves around body about internal conditions
communicates with pituitary gland
“master gland”
releases many hormones
sexual development, growth, milk production, pain-relief
hormones

6. specific body condition
Negative Feedback
Response to changed body condition
every time body is high or low from normal level a signal tells the body to make changes that will bring body back to normal level
once body is back to normal level, signal is turned off
hormone 1
gland
lowers body condition
high
specific body condition

7. Maintaining homeostasis
Feedback
Maintaining homeostasis
hormone 1
gland
lowers body condition
high
specific body condition
low
raises body condition
gland
hormone 2

8. Dynamic Equilibrium and Feedback Loops
Two Hormones Working in Opposite
Ways to Regulate a “set point”
Feed Back Loop
One Hormone “feeds-back” to
Regulate another Hormone or
Product

9. 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

10. 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
(90mg/100ml)
low
liver releases sugar
triggers hunger
pancreas
liver
glucagon

11. Let’s Review ??

12. What do they do? Maintain homeostasis Start a new process
Body Temperature
Maintain homeostasis
blood sugar level
temperature control
Start a new process
growth
fetal development
sexual development

13. Negative Feedback Negative feedback
every time body is high or low from normal level a signal tells the body to make changes that will bring body back
body temperature
control of blood sugar

14. Sex & Growth Hormones Large scale body changes how do they work
turn genes on
start new processes in the body by turning genes on that were lying “dormant”

15. Responding to hormones
Lock and key system
hormone fits receptor on “target” cell
target cell
secreting cell
non- target cells
can’t read signal
can’t read signal

16. Hormone Action at Target Cells
Protein Hormone
Two Messengers
One Messenger
Steroid Hormone
Nonsteroid hormone (first messenger)
Target cell membrane
Receptor
Target cell membrane
Receptor
cAMP (second messenger)
Hormone-receptor complex
Altered cellular function
Nucleus
Enzyme activities
DNA
Altered cellular function
Protein synthesis
Nucleus
Cytoplasm
Cytoplasm
mRNA
Steroid hormones
Act Directly on DNA
Protein Hormones affect
Enzyme Activities and Cell Function

17. Glands Pineal Pituitary Thyroid Adrenal Pancreas Ovary Testes
melatonin
Pituitary
many hormones: master gland
Thyroid
thyroxine
Adrenal
adrenaline
Pancreas
insulin, glucagon
Ovary
estrogen
Testes
testosterone

18. Pituitary gland hormones
Sex & reproductive hormones
FSH
follicle stimulating hormone
stimulates egg & sperm production LH
luteinizing hormone
stimulates ovaries & testes
prepares uterus for fertilized egg
oxytocin
stimulates childbirth contractions
releases milk in nursing mothers
prolactin
milk production in nursing mothers
hormones
hormones

19. Reproductive hormones
Testosterone
from testes
sperm production & secondary sexual characteristics
Estrogen
from ovaries
egg production, preparing uterus for fertilized egg & secondary sexual characteristics

20. Male reproductive system
Sperm production
over 100 million produced per day!
~2.5 million released per drop!

21. seminiferous tubule
sperm
spermatocytes

22. Main Functions of Male Repro System
Sperm production in paired testes
Requires lower temperature
Scrotum adaptation for max. sperm production
Flagellum
Mitochondria
2. Delivery of Sperm into Female’s Reproductive Tract
Head
Nucleus

23. Male reproductive system
Testes & epididymis
sperm production & maturation
Glands
seminal vesicles, prostate, bulbourethal
produce seminal fluid
nutrient-rich

24. Male reproductive system
Testicles
produces sperm & hormones
Scrotum
sac that holds testicles outside of body
Epididymis
where sperm mature
Vas deferens
tubes for sperm to travel from testes to penis
Prostate, seminal vesicles, Cowper’s (bulbourethal) glands
nutrient rich fluid to feed & protect sperm

25. Female reproductive system

26. Female reproductive system
Ovaries
produces eggs & hormones
Uterus
nurtures fetus; lining builds up each month
Fallopian tubes
tubes for eggs to travel from ovaries to uterus
Cervix
opening to uterus, dilates 10 cm for birthing baby
Vagina
birth canal for birthing baby

27. Female reproductive system

28. Egg maturation in ovary
releases progesterone
maintains uterus lining
produces estrogen

29. Menstrual cycle Controlled by interaction of 4 hormones FSH & LH
estrogen
progesterone
FSH
ovulation = egg release
egg development
corpus luteum
estrogen
progesterone
lining of uterus
days 7 14 21 28

30. Menstrual Cycle Summary Chart
Follicle Stage
↑FSH
Follicle develops
Follicle produces Estrogen
Egg Matures
Estrogen Thickens Uterus lining
Lasts days
Low Estrogen + progesterone allows FSH to be released again from pituitary
Day 14
4. Menstruation
Sudden decrease in
estrogen and progesterone
Shedding of Uterine Lining
2. Ovulation
↑ LH released
Mature egg released
Ovulation
Lasts days
3. Corpus Luteum Stage
Ruptured follicle becomes the Corpus Luteum (yellow Body)
Corpus luteum produces Progesterone
Uterus lining becomes thicker, prepares
For possible fertilization
Corpus luteum
Degenerates
Causing
Progesterone
+ estrogen to
Drop

31. Human Menstrual Cycle

32. Female hormones FSH & LH Estrogen Progesterone released from pituitary
stimulates egg development & hormone release
peak release = release of egg (ovulation)
Estrogen
released from ovary cells around developing egg
stimulates growth of lining of uterus
decreasing levels causes menstruation
Progesterone
released from “corpus luteum” in ovaries
cells that used to take care of developing egg
stimulates blood supply to lining of uterus

33. Fertilization

34. Fertilization Occurs In the Fallopian Tubes
Day 4
4 cells
2 cells
Zygote
Morula
Day 7
Fertilization
Blastocyst
Day 0
Implantation of blastocyst
Uterine wall
Egg released
“ovulation”
ovary

35. Early Embryonic Development
All divisions of
A zygote after
Fertilization are
Mitotic cell
divisions
Called Cleavage

36. The Three Germ Layers Differentiation of Cells
Endoderm:
Lining of Digestive
And Respiratory tracts,
Liver and Pancreas
Mesoderm:
Muscles and Skeleton,
Circulatory and
Reproductive systems
Ectoderm:
Nervous System
Epidermis of skin

37. Multiple Births
Fertilization is the fusion of a sperm and an egg to form a zygote, the single cell from which all cells of the human body are derived. When an egg is fertilized, the remarkable process of human development begins.
1.If two eggs are released during ovulation, each can be fertilized by a sperm. What do you think would be the result? Explain your answer.
2.If one zygote splits into two, each can continue development on its own. What do you think would be the result? Explain your answer.
3.Triplets are three babies born at the same time. Describe three ways that triplets could develop.

38. Human Embryo: 3-8 weeks Gestation
Note, the period from week 12 to week 38 is considered Fetal Development

39. Fetus to Baby In spite of the placental “barrier” Small molecules and
Viruses can still cross
And affect the baby
Alcohol (FAS)
Carbon Monoxide (Smoking)
Narcotics (Heroine, Crack)
HIV
Measles
Chicken Pox
Antibodies
Rh incompatibility

40. It’s All About
HORMONES
Got Questions ?

41. Actions of Insulin and Glucagon
Following a Meal
Regulation of Blood Sugar Levels to Maintain Homeostasis
Beta cells release insulin into the blood
Body cells absorb glucose
Blood glucose level increases
Liver converts glucose in to glycogen
Blood glucose level decreases
Homeostasis: Normal blood glucose level
Blood glucose level increases
Blood glucose level decreases
Missed a Meal
Liver converts glycogen to glucose
Alpha cells release glucagon into blood

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

43. . Homeostasis
biological processes which keep temperature & other body variables within a certain range
For example, temperature, weight, hydration (fluids; H2O) content of blood (acidity, oxygen, fat, glucose)
Homeostasis is maintained by both (1) internal biological processes and (2) external behaviors.
Set Point: homeostasis relies upon set points for each body variable, that is, a specific narrow range of acceptable values which the body must maintain. For example, the human body temperature generally stay between roughly 36.5 and 37.5 degrees Celsius (97.7 and 99.5 degrees Fahrenheit)

44. The Thyroid Gland
Location: found in the neck, just below the larynx and in front of the trachea

45. Thyroxine Iodine-containing hormone secreted by the thyroid gland
Regulates rate of metabolism in body
Increases rate of protein, carbohydrate, and fat metabolism
Increases rate of cellular respiration
Necessary for normal mental and physical development

46. TSH-releasing factor stimulates
Thyroxine Factory
hypothalamus
TSH-releasing factor stimulates
Low-level stimulates
High-level inhibits
FEED BACK
LOOP
anterior pituitary
thyroxine
TSH stimulates
thyroid
RELEASES