ENDOCRINE SYSTEM  If max.

set point is exceeded

Principles of Chemical Communication  Hormone production is halted
Chemical messengers – allow cells to communicate
with each other B. Positive feedback
 Tropic hormones stimulate the release of
Secretion – controlled release of chemicals from a cell other hormones

Classes of Chemical Messengers Hormone Receptors and Mechanisms of Action

1. Autocrine – stimulates the cell that originally Receptors – where hormones exert action by binding to
secreted it; WBCs during an infection proteins

2. Paracrine – act locally on nearby cells; WBCs Receptor site – the portion of each receptor molecule
during allergic reactions where a hormone binds

3. Neurotransmitter – activate an adjacent cell Specificity – tendency of hormones to bind to one type
of receptor
4. Endocrine – secreted into the bloodstream by
certain glands and cells Target tissue – the responding tissue based on the
hormone released
Functions of the Endocrine System (MC 3 I2WHUT)
1. Metabolism. Classes of Receptors
2. Control of blood glucose and other nutrients. 1. LSH bind to nuclear receptors.
3. Control of reproductive functions.  Interaction with cell DNA to regulate
4. Control of food intake and digestion. transcription.
5. Ion regulation. 2. WSH bind to membrane bound receptors.
6. Immune system regulation.  Hormone receptor complex initiates a
7. Water balance. response inside the cell (G proteins,
8. Heart rate and blood pressure regulation. cAMP, protein kinase).
9. Uterine contraction and milk release.
10. Tissue development. Endocrine Glands and their Hormones
Pituitary and Hypothalamus
Characteristics of the Endocrine System Pituitary Gland/Hypophysis
Endocrine System – composed of endocrine glands +  A small gland about the size of a pea
endocrine specialized cells  Controls the functions of many other glands
 Secrets hormones that influence growth, kidney
Hormones – chemical messenger that is secreted into function, birth, milk prod.
the blood
Hypothalamus
Target tissues – effectors; specific site  An important ANS and endocrine control center
of the brain
Endocrine – Greek word; endo (within) + krino  Controls the PG by hormonal control and direct
(secrete) innervation

Exocrine glands – have ducts that carry their secretions Infundibulum – a stalk that connects the pituitary gland
to the outside of the body and the hypothalamus

Endocrinology – study of the endocrine system Anterior pituitary – made up of epithelial cells derived
from embryonic oral cavity
Hormones
 Greek word; hormone (to set into motion) Posterior pituitary – an extension of the brain;
composed of nerve cells
Chemical Nature of Hormones
1. Lipid-Soluble Hormonal Control of A. Pituitary
2. Water-Soluble Hypothalamic-pituitary portal system – capillary beds
and veins that transport the releasing and inhibiting
Control of Hormone Secretion hormones
Stimulation/Inhibition of Hormone
Release
1. Humoral Stimuli – blood levels of chemicals
2. Neural Stimuli – nervous system
3. Hormonal Stimuli - hormones

Regulation of Hormone Levels in the Blood

A. Negative feedback
 Blood conc. of hormone declines
 More hormone is secreted
ANTERIOR PITUITARY T H Y R O I D GLAND
1. Growth hormone (GH) 1. Calcitonin
 Affects body growth by stimulating protein  Decreases rate of bone breakdown
synthesis by increasing gene expression  Prevents large increase in blood Ca2+ levels
 Breakdown of lipids
 Release of fatty acids from cells 2. Thyroid hormones
 Increases blood glucose levels  Increases metabolic rates
 Essential for normal process of growth
Pituitary dwarf – deficiency in GH although
normally proportioned Thyroxine / Tetraiodothyronine - contains four
iodine atoms
Gigantism – excess GH; exaggerated bone
growth occurs Triiodothyronine – contains three iodine atoms

Acromegaly – abnormally large facial features & Isthmus – narrow band that connects the two
hands lobes of the thyroid gland

Insulin-like growth factors (IGFs) Thyroid follicles – where thyroid hormones are
synthesized and stored
2. Thyroid-stimulating hormone (TSH)
 Promotes synthesis and secretion of thyroid Goiter – excess TSH; low in iodine diet
hormone
Hypothyroidism – lack of thyroid hormones
3. Adrenocorticotropic hormone (ACTH)
 Increases secretion of glucocorticoid hormones Cretinism – congenital absence of thyroxine in
 Increases skin pigmentation infants

4. Melanocyte-stimulating hormone (MSH) Myxedema – accumulation of fluid and other

molecules in subcutaneous tissue in adults
 Increases melanin prod. in melanocytes
Hyperthyroidism – elevated rate of thyroid
5. Luteinizing hormone (LH)
hormone secretion
 Promotes ovulation and
progesterone production on ovary Graves disease – hyperthyroidism that results
when the immune system produces abnormal
Interstitial cell-stimulating hormone (ICSH) proteins
 Promotes testosterone synthesis and support for
sperm cell prod. in testis Exophthalmia – bulging of the eyes
6. Follicle-stimulating hormone (FSH)
P A R A T H Y R O I D GLAN D
 Promotes follicle maturation and
estrogen secretion in ovary 1. Parathyroid hormone
 Promotes sperm cell prod. in testis  Increase Ca+ levels in the blood
 Increases rate of bone breakdown by osteoclasts
7. Prolactin  Increases vit. D synthesis (essential for
 Promote development of breast maintenance of normal blood calcium levels)
during pregnancy
 Stimulates milk prod. and Hyperparathyroidism (Hypercalcemia) –
prolongs progesterone secretion abnormally high rate of PTH secretion
 Increases sensitivity to LH in males  Tumor
 Muscle weakness
PITUITARY GLAND  Soft, easily deformed bones
1. Antidiuretic hormone  Prone to kidney stone formation
 Conserves water
Hypoparathyroidism (Hypocalcemia) –
 Constricts blood vessels abnormally low rate of PTH; surgery
 Syndrome of Inappropriate ADH (SIADH)  Surgery
 Diabetes Inspidus – large prod. of dilute urine  Frequent muscle cramps or tetanus
 Respiratory arrest
2. Oxytocin
 CHVOSTEK’s sign & TROSSEAU sign
 Swift birth
 Increases uterine contractions
 Increases milk letdown
ADRENAL MEDULLA Norepinephrine
1. Epinephrine (Adrenalin) &  Fight-or-flight hormones
 Increases cardiac output
  Increases blood flow to skeletal muscles & heart PANCREAS
 Increases release of glucose and fatty acids into
blood 1. Insulin
 Prepares body for physical activity  Secreted by beta cells
 Increases uptake and use of glucose and amino
acids
ADREN AL CORTEX  Released in response to elevated blood glucose
1. Aldosterone (Mineralocorticoids) level & parasympathetic stimulation
 Regulates water balance
 Increases rate of Na transport into body
2. Glucagon
 Increase rate of K excretion  Secreted by alpha cells
 Increases breakdown of glycogen and release of
Renin – protein molecule that acts as an glucose into the circulatory system
enzyme  Released in response to low blood glucose level

Renin Angiotensin Aldosterone System Glycogen – stored glucose in muscles & liver
(RAAS) – helps the body to address decreasing
blood volume Acidosis – reduced pH of body fluids

2. Cortisol (Glucocorticoids) Satiety center – area of the hypothalamus that

controls apetite
 Increase fat & protein breakdown
 Increase glucose synthesis from amino acids Diabetes mellitus – much urine + sweetened
 Increase blood nutrient levels  Type 1 – occurs when too little insulin is
 Inhibit inflammation & immune response secreted from pancreas
 Helps the body in stressful situations by  Type 2 – caused by insufficient no. of
providing energy sources insulin receptors

Cortisone – artificial cortisol; anti- Hyperglycemia – high blood glucose levels

inflammatory effect
Polyphagia – increased appetite/eating
3. Androgens
 Male sex hormone; stimulates the dev’t of male Polyuria – increased eating
characteristics
 Increases female sex drive Polydipsia – excessive thirst

Addison’s disease – hyposecretion of adrenal TESTES

cortex hormones
1. Testosterone
Cushing’s disease – tumor in middle cortex  Aids in sperm cell prod.
 Maintenance of functional reproductive organs,
Hyperaldosteronism – hyperactivity of outer secondary sexual characteristics, sexual behavior
cortex
O V A R I E S
Hirsutism – masculinization (inner cortex) 1. Estrogen & Progesterone
 Aid in uterine and mammary gland development
THYMUS and function, external genitalia structure,
1. Thymosin secondary sexual characteristics, sexual
 Promotes immune system development and behavior, menstrual cycle
function
 Helps the dev’t of certain WBC (T-cells) 2. Prostaglandins
 Mediate inflammatory responses
PINE A L GLAND  Increase uterine contractions and ovulations
1. Melatonin
 Inhibits secretion of gonadotropin-releasing O T HE R H O R M O N E S
hormone (thus inhibits reproduction) 1. Erythropoietin
 Biological clock (day & night cycle)  Acts on bone marrow to increase the prod. of RBCs

2. Human chorionic gonadotropin (HCG)

Stimulated prod. of estrogen & progesterone