Hormones & Homeostasis Endocrine System Hormones & Homeostasis 2006-2007
Homeostasis Homeostasis maintaining internal balance in the body organism must keep internal conditions stable even if environment changes also called “dynamic equilibrium” example: body temperature humans: too cold = shiver too warm = sweat lizard: too cold = bask in sun too warm = hide in shade
Regulation How we maintain homeostasis nervous system endocrine system nerve signals control body functions endocrine system hormones chemical signals control body functions
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
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 growth hormones
Endocrine System Endocrine system releases hormones glands which secrete (release) chemical signals into blood chemicals cause changes in other parts of body 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.
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
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
Maintaining homeostasis Feedback Maintaining homeostasis hormone 1 gland lowers body condition high specific body condition low raises body condition gland hormone 2
specific body condition Negative Feedback Response to changed body condition if body is high or low from normal level signal tells 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
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
Everyone’s doing it, so Ask Questions!! 2006-2007
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”
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
Reproductive hormones Testosterone from testes sperm production & secondary sexual characteristics Estrogen from ovaries egg production, preparing uterus for fertilized egg & secondary sexual characteristics
Male reproductive system Sperm production over 100 million produced per day! ~2.5 million released per drop!
seminiferous tubule sperm spermatocytes
Male reproductive system Testes & epididymis sperm production & maturation Glands seminal vesicles, prostate, bulbourethal produce seminal fluid nutrient-rich
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
Female reproductive system
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
Female reproductive system
Egg maturation in ovary releases progesterone maintains uterus lining produces estrogen
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
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
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
Fertilization
Any Questions?? 2006-2007
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
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
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
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