T1

Question 1

What’s the endocrine system purpose? (3)

Answer 1

regulates and controls metabolic processes

• helps maintain body homeostasis
• serves as one of two MAJOR control systems of the body

Question 2

The endocrine glands make and secrete what?

Answer 2

hormones

Question 3

How are the hormones transported through the body?

Answer 3

released into the blood and transported through the body

Question 4

What are target cells in the endocrine system?

Answer 4

cells with specific receptor for a hormone

Question 5

Target cells are also called ______ which fxns as what?

Answer 5

bind hormone, initiates or inhibits selective cell activity

Question 6

What features are different from the nervous system? (6)

Answer 6

– Hormones transported within blood to target cells
– Causes metabolic changes in target cells
– Target any cells with receptors
– Exhibit longer reaction times
– More widespread effects throughout the body
– Longer-lasting effects (minutes to days and weeks)

Question 7

What are the 4 fxn of the endo system?

Answer 7

• maintaining homeostasis of blood composition and volume
• controlling reproductive activities
• Regulating development, growth and metabolism, controlling digestive progesses

Question 8

What is the composition of endocrine cells?

Answer 8

• secretory endocrine cells
• derived from epithelium with connective tissue framework
• high extensive blood supply which helps with uptake of hormones

Question 9

What are the two organizations of organs within the system?

Answer 9

single organ with endocrine function

- cells in small clusters in organs with another function

Question 10

Endocrine organs (single) include?(5)

Answer 10

pituitary gland
• pineal gland
• thyroid gland
• parathyroid glands
• adrenal glands

Question 11

Pineal gland secretes what hormone? which is responsible for what?

Answer 11

melatonin, circadian rhythm

Question 12

Which other hormone does the pineal gland affect? what does that hormone effect?

Answer 12

the synthesis of the hypothalmic hormone

• responsible for synthesis of the hypothalmic hormone
• involved in regulation of the reproductive system

Question 13

The parathyroid has which two cell types?

Answer 13

-cheif cells and oxphil cells

Question 14

Chief cells do what 3 things?

Answer 14

– source of parathyroid hormone
– released in response to decreased blood calcium levels
– return blood calcium to normal levels

Question 15

What’s the fxn of oxphil cells?

Answer 15

fxn unknown

Question 16

Endocrine cells iwthin other organs include?

Answer 16

• hypothalamus, skin, thymus
• heart, liver, stomach
• pancreas, small intestine
• kidneys, gonads

Question 17

What are the three types of stimulation for the endocrine reflexes?

Answer 17

hormonal, humoral or nervous

Question 18

Hormonal stimulation is?

Answer 18

1 part of body releases one hormone that hormone stimulates another part of the body to release a specific hormone

Question 19

Humoral stimulation?

Answer 19

release of a hormone in response to changes in level of nutrient or ion in the blood

Question 20

Nervous stimulation is?

Answer 20

release of a hormone in respone to stimulation by the nervous system (ex: norepenephrine and epinephrine aka adrenaline)

Question 21

Steroid hormones are (soluble wise)

Answer 21

lipid soluble molecules synthesized form clestrol

Question 22

Protein hormones are (soluble wise)

Answer 22

water souble

Question 23

How are water-soluble hormones transported?

Answer 23

they readily dissolve

Question 24

How are lipid soluble hormones transported

Answer 24

they require carrier molecules “ferrys”

Question 25

Some lipid soluble carrier molecules are selective which means

Answer 25

that they bind only one lipid soluble molecule

Question 26

How are hormones regulated

Answer 26

between synthesis and elimination

Question 27

Increased hormone synthesis occurs when

Answer 27

increased blood levels

Question 28

What are the hormone elimination routes (4)

Answer 28

• enzymic degradation in livier cells
• removal from blood via kidneys
• removal of blood by uptake into target cells
• increased elimination leading to decreased blood levels

Question 29

Half life:

Answer 29

time necessary to reduce concentration to half of original level (shorter half life more frequent replacement)

Question 30

Do water soluble hormones or lipid soluble hormones have a longer half life?

Answer 30

lipid soluble hormones have a longer half life

Question 31

lipid soluble hormones are what size and are polar or non polar?

Answer 31

small nonpolar

Question 32

because lipid soluble hormones are non polar how do they get across the plasma membrane?

Answer 32

able to diffuse across the plasma memberane

Question 33

When a lipid soluble binds to intracellular receptors in the cytosol or nucleus what does it form

Answer 33

hormone receptor complex

Question 34

hormone response elements in lipid soluble hormones are

Answer 34

• regions of chromatin within nucleus

- areas wher complex binds

Question 35

lipid soluble hormone i nteractions results in what

Answer 35

transcription of mRNA

• translation resulting in protein synthesis
• may result in alteration in cell structure
• may result in shift of target cells’ metabolic activity

Question 36

b/c water soluble hormones are polar how do they cross the plasma membrane

Answer 36

• initatte a series of biochemical events , signal transduction pathway

Question 37

the signal trandcution pathway is initated by what

Answer 37

the hormone, the first messenger

Question 38

In the signal trandsduction pathway what results in the formation of the second molecule, what does this molecule do

Answer 38

docking, termed second messenger which modifies some cellular activity

Question 39

What is a G protein? inactive/active states, what activates it?

Answer 39

• internal plasma membrane protein complex
  inactive = GDP
  active = GTP
• activated by binding of hormone

Question 40

Adenylate Cyclase is

Answer 40

a plasma membrane protein bound and activated by g protein, increases formation of second messenger cAMP from ATP
- cAMP activates protein kinase which results in activation or inhibition of molecules

Question 41

What are the actions of water-soluble hormones

Answer 41

multiple results possible from hormone activation

ex: activation or inhibition of enxymatic pathways- stimulation of growth through cellular reproduction
- results dependend on hormone, messenger types and enzymes phosphorylated

Question 42

The water soluble hormone glucagon is

Answer 42

released from pancreatic cells in response to low blood glucose leveles
- glucose released from liver cells

Question 43

The water soluble hormone oxytocin is

Answer 43

released from posterior pituitary during childbirth

- causes stronger uterine muscle contractions to expel baybay

Question 44

What are the three types of interactions with receptor cells

Answer 44

synergistic, permissive, antagonistic

Question 45

Synergistic reactions are

Answer 45

activity of one hormone reinforcing activity of another hormone

Question 46

Permissive interactions are

Answer 46

activity of one hormone requiring second hormone

Question 47

Antagonistic interactions are

Answer 47

activity of one homrone opposing effects of another

Question 48

Steps of nutrient metabolism

Glucose, fatty acids, and some amino acids

Answer 48

• “nutrients”
• oxidized by cells to provide energy to form ATP
• circulate in the blood in their simple form
• glucose stored within glycogen
• fatty acids stored within triglycerides
• liver, adipose tissue, and skeletal muscle
– nutrients “deposited” and “withdrawn” here

Question 49

Nutrient processing in the liver includes (3 things)

Answer 49

– Glycogenesis
– Glycogenolysis
– Gluconeogenesis

Question 50

Glycogenesis

Answer 50

synthesis of glycogen from blood glucose

• also active in muscle cell

Question 51

Glycogenolysis

Answer 51

• breakdown of stored glycogen into glucose

* also in muscle cells, but used locall

Question 52

Gluconeogenesis

Answer 52

production of glucose from noncarbohydrate molecules

Question 53

• Nutrient processing in adipose tissue include

Answer 53

– Lipogenesis

– Lipolysis

Question 54

Lipogenesis

Answer 54

synthesis of triglycerides from blood fatty acids and glycerol
• for storage

Question 55

Lipolysis

Answer 55

• breakdown of triglycerides into glycerol and fatty acids

* released into blood

Question 56

Nutrient processing in all cells, especially muscle include

Answer 56

• Protein anabolism

– Protein catabolism

Question 57

Protein anabolism

Answer 57

protein synthesis

• stimulated with increased uptake of amino acids from blood

Question 58

Protein catabolism

Answer 58

• protein degradation
• not generally broken down for fuel
• may be broken down during stress or starvation

Question 59

In the endocrine system the hypothalmus does what

Answer 59

Influences or controls many endocrine glands
– Has direct control over hormone release from pituitary gland
– Has indirect control over hormone release from:
• thyroid and adrenal glands
• liver, testes, and ovaries

Question 60

In the endocrine system the pituitary gland does what

Answer 60

Lies inferior to the hypothalamus
– Approximately the size of a pea
– Housed within sella turcica of sphenoid bone
– Connected to hypothalamus by thin stalk, infundibulum
– Partitioned into anterior and posterior pituitary

Question 61

Posterior Pituitary

Answer 61

– Neural part of pituitary gland
– Grows from developing hypothalamus
Cell bodies and dendrites within hypothalamus
• axons extending from hypothalamus to pars nervosa
• termed hypothalmo-hypophyseal tract

Question 62

Anterior Pituitary

Answer 62

– Develops beginning of third week of development

• develops as invagination of ectoderm in developing oral cavity

Question 63

Hormones stored in posterior pituitary

Answer 63

Synthesized in hypothalamus by neurosecretory cells
• packed within secretory vesicles
• transported by fast axonal transport
• released from synaptic knobs of neurons
- oxytocin, antidiuretic hormone

Question 64

Oxytocin

Answer 64

• produced by paraventricular nucleus

Question 65

Antidiuretic hormone (ADH)

Answer 65

produced by supraoptic nucleus

Question 66

Hormone release from anterior pituitary

Answer 66

– Specific hormones within hypothalamus released
– Travel through from primary plexus to secondary plexus
– Hormones released from anterior pituitary
• reach target cells through the bloodstream

Question 67

Hormones of the Hypothalamus tract

Answer 67

– Termed regulatory hormones (Tropic)
• secreted into blood to regulate anterior pituitary hormones
releasing hormones, inhibiting hormones

Question 68

– Releasing hormones

Answer 68

stimulate secretion of specific anterior pituitary hormones

Question 69

Inhibiting hormones

Answer 69

• deter secretion of specific anterior pituitary hormones

Question 70

Hormones of the Hypothalamus

Answer 70

Thyrotropin-releasing hormone
– Prolactin-releasing hormone
– Gonadotropin-releasing hormone
– Corticotropin-releasing hormone
– Growth hormone-releasing hormone

Question 71

Thyrotropin-releasing hormone

Answer 71

• increases secretion of thyroid-stimulating hormone

Question 72

Prolactin-releasing hormone

Answer 72

• increases secretion of prolactin

Question 73

Gonadotropin-releasing hormone

Answer 73

ncreases secretion of follicle-stimulating hormone and luteinizing
hormone

Question 74

Corticotropin-releasing hormone

Answer 74

• increases secretion of adrenocorticotropic hormone

Question 75

Growth hormone-releasing hormone

Answer 75

• increases secretion of growth hormone

Question 76

Hormones of the Anterior Pituitary

Answer 76

– Six major hormones
– Most tropic hormones
• stimulated cells to secrete hormones
• exception prolactin

Question 77

Six major hormones of the Anterior Pituitary

Answer 77

– Thyroid-stimulating hormone (TSH)
– Prolactin
– Follicle-stimulating hormone (FSH) and luteinizing hormone (LH)
– Adrenocorticotropic hormone (ACTH)
– Growth hormone

Question 78

Thyroid-stimulating hormone (TSH)

Answer 78

regulates release of thyroid hormone from thyroid gland

Question 79

Prolactin

Answer 79

• regulates mammary growth and breast milk production

* may help androgen production in males

Question 80

Follicle-stimulating hormone (FSH) and luteinizing hormone (LH)

Answer 80

• collectively called gonadotropins
• regulate hormone synthesis by the gonads
• regulate production and maturation of gamete

Question 81

Adrenocorticotropic hormone (ACTH)

Answer 81

stimulates adrenal cortex to produce and secrete glucocorticoids

Question 82

Growth hormone

Answer 82

stimulates cell growth and cell division
• affects most body cells
• particularly affects skeletal and muscular system
• stimulates liver to release insulin-like growth factor 1 and 2
– have overlapping function with growth hormone

Question 83

Growth hormone characteristics

Answer 83

Functions include:
• stimulation of linear growth at epiphyseal plate
• hypertrophy of muscle

Question 84

Anatomy of the Thyroid Gland

Answer 84

Largest structure in body devoted to endocrine activities
– Immediately inferior to thyroid cartilage of larynx
– Anterior to trachea
– Covered by connective tissue capsule
– Has left and right lobes
• connected at midline by narrow isthmus
– Highly vascularized by superior and inferior thyroid arteries
– Composed of microscopic spherical structures
• termed thyroid follicles
– Follicular cells
• form wall of follicles
• surround central lumen
• houses protein-rich fluid, colloid
– Thyroid hormone
• produced and released by follicular cells

Question 85

Action of Thyroid Hormone

Answer 85

– Thyrotropin-releasing hormone (TRH) released by hypothalamus
• enters in response to decreased in blood levels of thyroid hormone
• also stimulated by:
– cold weather, pregnancy, high altitude, and hypoglycemia
– TRH binding to cells of anterior pituitary
• stimulates anterior pituitary to release thyroid-stimulating hormone (TSH)

Question 86

– Increased thyroid hormone

Answer 86

inhibits release of TRH from hypothalamus
• inhibits release of TSH from anterior pituitary
• causes release of growth inhibiting hormone
– further inhibits release of TSH from anterior pituitary

Question 87

– Hyperthyroidism

Answer 87

result from excessive production of TH
• increased metabolic rate, weight loss, hyperactivity, and heat intolerance
• treated by removing the thyroid (with daily hormone supplements)

Question 88

– Hypothyroidism

Answer 88

results from decreased production of thyroid hormone
• low metabolic rate, lethargy
• cold intolerance, weight gain, and photophobia
• caused by decreased iodine intake, loss of pituitary stimulation of thyroid,
postsurgical, or immune system destruction of thyroid
• treated with thyroid hormone replacement

Question 89

– Goiter

Answer 89

• enlargement of thyroid
• typically due to insufficient dietary iodine
• lack of dietary iodine preventing thyroid from producing thyroid hormone
• once relatively common in United States
– now iodine added to table salt

Question 90

Adrenal cortex

Answer 90

• synthesizes more than 25 corticosteroids
• yellow color due to lipids within cells
• three regions producing different steroid hormones

Question 91

– Pancreatic islet cells

Answer 91

small clusters of endocrine cells scattered among acini
• 1% of total pancreatic volume
• composed of two primary cell types:
– alpha cells secreting glucagon
– beta cells secreting insulin

Question 92

• Blood glucose concentration

Answer 92

Pancreatic endocrine function
• maintaining normal blood glucose
– Normal range 70 to 110 mg of glucose/deciliter*
– Chronically high levels damaging to blood vessels and kidneys
– Low levels resulting in lethargy, mental and physical impairment, and
death (if too low)