Ch. 33

Question 1

What is glucose in our blood anabolized into for storage?

Answer 1

glycogen

Question 2

What are amino acids anabolized into for storage?

Answer 2

proteins

Question 3

What are free fatty acids and glycerol anabolized into for storage?

Answer 3

triglycerides

Question 4

What are the by-products of the metabolism of amino acids?

Answer 4

ketoacids and ammonia

Question 5

What does catabolism do to our blood sugar usually?

Answer 5

raises it.

Question 6

What does anabolism usually do to our blood sugar?

Answer 6

lowers it.

Question 7

Ammonia is toxic to our body, so what does the liver have to convert it to?

Answer 7

urea

Question 8

What can the liver convert free fatty acids and amino acids into?

Answer 8

ketones

Question 9

What has to be present for glucose to be used for energy?

Answer 9

O2

Question 10

What are the waste products when glucose are oxygen are used for aerobic metabolism?

Answer 10

CO2 and H2O

Question 11

What happens with the glucose that is not used for energy?

Answer 11

it is removed from the blood and stored as glycogen or converted to fat.

Question 12

Where are our glycogen stores?

Answer 12

the liver and muscle

Question 13

What is glycogenolysis?

Answer 13

glycogen is broken down into glucose and released into the blood stream

Question 14

What is gluconeogenesis?

Answer 14

This is the process of the liver synthesizing glucose.

Question 15

What is the only thing that our brain can use glucose for, and why is that important to know?

Answer 15

glucose

it is important because our brain cant store glucose, so it relies on other parts of the body to have glucose available in the blood stream

It also explains why there are a lot of neuro symptoms when it comes to low blood sugar

Question 16

Why is aerobic metabolism most ideal?

Answer 16

It gives us the most ATP

Question 17

What are some other fuel sources other than glucose?

Answer 17

fatty acids and ketones

Question 18

What is our most efficient form of fuel STORAGE?

Answer 18

Fat

Question 19

If you have a triglyceride and you add lipase (enzyme) what do you get?

Answer 19

glycerol and fatty acids

Question 20

What is the by-product when fatty acids are used for energy?

Answer 20

ketones

Question 21

What are proteins made up of?

Answer 21

amino acids

Question 22

What are proteins essential for?

Answer 22

formation of all body structures (enzymes, hormones, muscles, ect..)

Question 23

What happens to excess amino acids?

Answer 23

they get converted to fatty acids, ketones, or glucose (gluconeogenesis)

Question 24

What are ketones?

Answer 24

an organic acid

Question 25

What happens when our BG is low andour metabolic needs are high?

Answer 25

The liver will break down proteins to use amino acids as part of glucneogenesis to make more glucose (sometimes this is preferred to breaking down our fat)

Question 26

What are the different cells of the islets of langerhans?

Answer 26

CELLS OF ENDOCRINE FUNCTION:

alpha cells

beta cells

delta cells

PP cells (pancreatic polypeptide)

Question 27

What do the cells of the pancreatic acini do?

Answer 27

perform exocrine functions

Question 28

What do alpha cells do?

Answer 28

release glucagon (raises blood sugar)

Question 29

What do beta cells do?

Answer 29

make insulin and amylin

insulin - makes cells take up glucose from blood (lowers blood sugar)

Question 30

What do delta cells do?

Answer 30

make somatostatin

Question 31

What do pancreatic polypeptide cells do?

Answer 31

make pancreatic polypeptide

Question 32

What does amylin do?

Answer 32

This is co-secreted with insulin from beta cells

it inhibits gastric emptying and glucagon secretion

BASICALLY TELLS THE BODY THAT WE NEED TO NOT USE OUR GLYCOGEN STORES FOR ENERGY AND LET THE FOOD THAT WE ARE EATING BE OUR ENERGY SOURCE

Question 33

What does somatostatin do?

Answer 33

this is secreted from the delta cells

has a very short half life

inhibits the release of glucagon and insulin

decreases GI activity after ingestion of food, allows for more absorption

Question 34

What does gut derived hormone do?

Answer 34

increases insulin secretion after a high carb meal.

Question 35

What is insulin release regulated by?

Answer 35

blood glucose levels

Question 36

What are the actions of insulin

Answer 36

promotes glucose uptake by target cells and provides for glucose storage as glycogen

prevents fat and glycogen breakdown

inhibits gluconeogenesis and increases protein synthesis

Question 37

What is the feedback loop for high blood sugar?

Answer 37

high blood glucose leads to a deacrease in glucagon secretions and an increase in insulin release

the insulin increase causes a removal of glucose from our blood to our tissues

the glucagon decrease results in a decrease of glucose production in our liver

this in turn lowers our blood sugar\

After our BG is lowered the insulin secretion will stop and glucagon and gluconeogenesis will pick back up again, raising our blood sugar

Question 38

What does insulin communicate to the liver?

Answer 38

increase glycogen synthesis

increase triglyceride synthesis

decrease glucose production

Question 39

What does insulin communicate to the skeletal muscle?

Answer 39

increase glucose uptake

increase glycogen storage

increase protein synthesis

Question 40

What does insulin communicate to adipose tissue?

Answer 40

increase glucose uptake

increase triglyceride synthesis

Decrease lipolysis

Question 41

How is glucose transported into the cell by insulin?

Answer 41

1. the insulin bind to an insulin binding site of the cell
2. this activates a secondary messenger inside the cell that sends a GLUT (glucose transporter) transporter to the cell membrane that gets the glucose into the cell
3. the secondary messenger also activate the synthesis of glycogen, fats, proteins, as well as growth and gene expression

Question 42

Are GLUT transporters membrane bound?

Answer 42

NO, they are inside the cell and are only activated and brought to the cell membrane when insulin binds to an insulin binding site.

Question 43

Where does glucose come from?

Answer 43

diet

liver

Question 44

Is insulin the only hormone that lowers glucose levels?

Answer 44

YES

Question 45

Is there only one hormone that raises blood glucose levels?

Answer 45

NO

Question 46

When does glucagon maintain our blood glucose mainly?

Answer 46

between meals and during periods of fasting

Question 47

What does glucagon initiate in the liver?

Answer 47

glycogenolysis (quick increase of glucose)

gluconeogenesis (build new glucose from amino acids, sometimes means we have to break down proteins in body for those amino acids)

Question 48

How is glucagon release regulated?

Answer 48

blood glucose levels

Question 49

What can high levels of glucagon also activate?

Answer 49

adipose cells to use lipases to break down fats into free fatty acids to be used as energy

THIS WILL CAUSE AN INCREASE IN KETONES

Question 50

What do we secrete after a high protein meal?

Answer 50

glucagon so our liver can use the amino acids for gluconeogenesis

Question 51

What does our body secrete during exercise?

Answer 51

Glucagon is released

Question 52

What does exercise promote in relation to our insulin receptors?

Answer 52

it promotes them to work better to get that glucose into the muscle cells to use for energy, which can cause our BG to drop after exercise

Question 53

What are the counterregulatory hormones that act on insulin?

Answer 53

epinephrine

GH (growth hormone)

Glucocorticoid hormone

Question 54

How does epinephrine counterregulate?

Answer 54

it maintains our BG during times of stress

Promotes glycogenolysis in the liver

inhibits insulin secretion by beta cells

Can have a lipolytic effect (break down fats for energy)

Question 55

How does GH (growth hormone) counterregulate?

Answer 55

increases protein synthesis

mobilizes fatty acids

antagonizes effects of insulin

Question 56

How do glucocorticoid hormones coutnerregulate?

Answer 56

stimulate gluconeogenesis in the liver

Question 57

What do we believe about GH and blood glucose regulation in children?

Answer 57

We believe that the reason that children with diabetes have more trouble keeping their sugars under control than adults with diabetes because their body utilizes GH in different ways than adults.