Week 15- Unit 4

Question 1

_____ ______ is the primary distribution site for AA.

Answer 1

Skeletal Muscle

Question 2

Skeletal muscle can metabolize BCAA and release ______ and _____ to the brain and _______ to the gut.

Answer 2

Valine
Isoleucine

Glutamine

Question 3

Skeletal muscle will release _____, _____ and ______ that enter the blood to go to cells of immune system and end up in the liver.

Answer 3

AA
Alpha-Keto Acids
Alanine

Question 4

In the brain the _______ are required for Neurotransmitter synthesis. The brain will then release ________ to carry the Nitrogen to the _______.

Answer 4

BCAAs

Glutamine (can also come from Skeletal muscle to kindey)

Kidney

Question 5

The kidney and the Gut can release _____ that can be taken up by the liver to synthesize ______.

Answer 5

Alanine

Glucose

Question 6

In the Kidney, Glutamine (Arterial from brain and muscles), facilitates two primary reactions. It is Deaminated by _______ which provides a N that can absorb free H and act as a _____ system in urine. This will allow for a reabsorption of ______ to a greater extent.

Answer 6

Glutaminase (turns it into glutamate)

Buffering

Bicarbonate (renal vein)

Question 7

The Glutamate in the kidneys can be completely Oxidized in the _______ cycle after it is deaminated by _______ to _______.

Answer 7

TCA

Glutamate Dehydrogenase

Alpha-KetoGlutarate

Question 8

The free A-KetoG in the kidney can be used to synthesize what 4 things?

The primary reason for this is to provide necessary compounds for the kindey itself. If it makes Glucose, then it will use it itself.

Answer 8

Glucose
Pyruvate
Serine
Glycine

Question 9

In some cases the kidney can be a site of _______ in cases such as starvation. But the body is not reliant on this process in the Kidney.

Answer 9

GNG

Question 10

In the kidney the pathway of Glutamine can go as follows:
Glutamine ——> Glutamate——>Alpha-KG—–> TCA cycle into _______. This can leave the MT and in the cytosol will convert to ______. This can then be used for GNG or to synthesize _______ which can be transaminated to Serine.

Answer 10

OAA

PEP (using PEPCK enzyme)

Alanine

Question 11

if Alanine is transaminated to Serine, what does the leftover Alanine turn into?

Answer 11

Pyruvate

Question 12

In the kidney, _____ provides substrate for energy as well as Ammonia for buffering.

Answer 12

Glutamine

Question 13

In the Renal Tubule cell, Ammonia can absorb a _____ to become Ammonium Ion (NH4). Ammonium ______ be taken back up/ diffuse back through plasma membrane as it is a ______molecule so it is excreted in urine. This is one way to regulate system buffering through excretion of NH4 (charged protons join NH3)

Answer 13

Hydrogen Ion

Cannot

Charged

Question 14

In the skeletal muscle the catabolism of ______ . Branched chain amino-trasferases are highly expressed in all places except the ______.

Answer 14

BCAAs

Liver

Question 15

Branched Chain Amino-Transferases will use a-KG with BCAAs to transform them into _____________ and ________.

Answer 15

Branched chain - Alpha Keto Acids

Glutamate (has NH3+)

Question 16

Glutamate will facilitate the _____ nucleotide cycle. The _______ _______ enzyme will convert Glutamate into Glutamine. But this will only happen after another Gluamate has been transaminated to create aspartate from OAA then leading to Purine Nucleotide cycle, or from action of _____ on the Glutamate.

Answer 16

Purine

Glutamine synthetase

GLutamate Dehydrogenase (GDH)

Question 17

What two BCAAs can enter the TCA cycle as Acetyl CoA?

Answer 17

Isoleucine (can be Succinyl CoA too)

Leucine

Question 18

What two BCAAs can enter the TCA cycle as Succinyl CoA?

Answer 18

Isoleucine

Valine

Question 19

If the BCAA has entered the TCA cycle as Succinyl CoA (valine or isoleucine), then it can either go backwards and be turned into ______ then ______ then _______. Or it can move forwards in the cycle and as _____ be converted to ______ which is transaminated to ______.

Answer 19

A-KG then Glutamate then Glutamine

Malate —->pyruvate—->Alanine

Question 20

What are two non-toxic carriers of Ammonia in the body that can be generated through the TCA cycle?

Answer 20

Alanine (from maltate to pyruvate)

Gluamine (from A-KG to Glutamate )

Question 21

What is the enzyme that is reversible and can change Pyruvate to Alanine and Alanine to Pyruvate ?

Answer 21

Alanine Aminotransferase

Question 22

The catabolism of AA in the intestinal epithelial cells is the ________ from the postprandial state (diet) and the postaborptive state from the blood.

Answer 22

Same

Question 23

In the postabsorptive state (blood) most of the AA enter as what 3 things into the intestinal epithelial cells?
What 2 main things will the go back into the blood as after the AA are oxidized?

Answer 23

Glutamine, BCAAs, Ketone bodies

Alanine or Lactate

Question 24

The ______ cells and the _____ in the brain both synthesize _____ as it is required as a precursor for many neurotransmitters.

Answer 24

Astroglial
Neurons

Glutamine

Question 25

The substrates for Glutamine synthesis in the brain primarily come from _______ and _____ in the blood that cross the blood brain barrier.

Answer 25

BCAAs

NH3 crosses and is made into NH4 once in brain

Question 26

Once the BCAAs are in the brain, they are ________ by __________ to generate Glutamate. This is then acted upon by what enzyme to make Glutamine?

Answer 26

deaminated
branch-chain aminotransferases

-Glutamine synthetase (adds NH4 to Glutamate)

Question 27

In nitrogen balance, anabolism (synthesis) and catabolism (degradation) of proteins are about equal in balance and have a turn over of about ____ to ____ grams of protein per day.

Answer 27

300g to 600g

Question 28

In nitrogen balance, if synthesis exceeds degradation, then you are in a _______ balance- occurs during growth, pregnancy, and repair.

Answer 28

Positive

Question 29

In nitrogen balance if degradation is greater than synthesis then you are in a _______ balance - occurs in cases of severe injury (burns), starvation, wasting diseases (sepsis). Otherwise nitrogen balance is neutral.

Answer 29

Negative

Question 30

In a disease state, during the initial immune response with elevated body temperature, nitrogen balance will become _________ and over the course of disease progression the cumulative nitrogen balance will be______.

Answer 30

negative

negative

Question 31

Bacterial products will activate the immune cascade starting at the _________. This will secrete any number of cytokines and chemokines. ____ , ______, and _______ are poly-peptides requiring AA and will be sent to liver.

Answer 31

Macrophage

TNF
IL-1
IL-6

Question 32

With activation of Macrophages, they will secrete _____and ______ to the adrenal cortex that will trigger the production/secretion of _______.

Answer 32

TNF
IL-1

Glucocorticoids

Question 33

The Glucocorticoids released from the _____ _____ during an immune response will travel to the muscles and trigger ______ _______. This will also decrease AA uptake and AA synthesis.

Answer 33

Adrenal cortex

Protein catabolism (AA are then shuttled to liver for GNG)

Question 34

In the liver during an immune response, the AA uptake will _____, protein synthesis will ______ and acute phase protein synthesis will _______. This will contribute to the negative nitrogen balance during a disease state.

Answer 34

increase

increase

increase

Question 35

What 2 things will hit the Skeletal muscle to trigger a decrease in AA uptake, decrease in AA synthesis and increase in Protein catabolism for transport to the liver ?

Answer 35

Epinephrine (From Adrenal medulla triggered by brain)

Glucocorticoids (Adrenal cortex signaled by macrophages)

Question 36

A 4 year old child after a meal will display what metabolic pattern in regards to :
Nitrogen balance?
GNG?
Fatty Acid Oxidation?

Answer 36

nitrogen balance- positive

GNG- decreased

FA oxidation- decreased

Question 37

The four primary hormones are ?

Answer 37

Insulin
Glucagon
Epinephrine
Cortisol

Question 38

Insulin (promotes growth) will stimulate AA _____ and Protein ______.

Answer 38

uptake

synthesis

Question 39

Insulin signals through a receptor ______ _______. When bound by Insulin, the receptor will ________ and recruit _______.

Answer 39

Tyrosine kinase

Autophosphorylate

IRS

Question 40

Once IRS is recruited it is _________ and this will recruit __________ by binding the phosphotyrosine residues via the _______ domain.

Answer 40

Phosphorylated

Grb2

SH2 domain

Question 41

Once IRS is recruited, besides Grb2, it will phosphorylate and recruit _______ and ________. Both of these are attached in the membrane and interact with PIP3.

Answer 41

Phospholipase C

Protein Kinase (PI3-K)

Question 42

In insulin sensitive cells, the binding of insulin will trigger translocation of ______ _______ to the plasma membrane. This activity is present mostly on ________ and _______.

Answer 42

Glucose transporters (GLUT 4 primarily)

Skeletal Muscle and Adipose

Question 43

________ glucose transporter is insulin insensitive and is on ________. This is important because they lack MT and are dependent on Glucose for energy.

Answer 43

GLUT 1

RBC (and Brain)

Question 44

_______ glucose transporter is insulin insensitive and is primarily found on the Liver (or kidney, pancreatic B-cells, intestinal cells) and is a high capacity, low affinity transporter. It may be used as the glucose sensor in the pancreas.

Answer 44

GLUT 2

Question 45

______ glucose transporter is the main one for the neurons in the brain. It is a High affinity system and the main transporter in the CNS.

Answer 45

GLUT 3 (however GLUT 1 is the primary for the Brain not 3)

Question 46

________ is the insulin SENSITIVE transporter found in adipose, skeletal muscle , and heart muscle. High affinity system.

Answer 46

GLUT 4

Question 47

_______ is actually a fructose transporter and is found on the intestinal epithelium and Spermatozoa.

Answer 47

GLUT 5

Question 48

What are the three main regulatory steps in Glycolysis ?

Answer 48

1. Glucokinase/Hexokinase (phosphorylates Glucose in the cell)
2. conversion of G-6P to Fructose 6-P by Phosphofructokinase 1
3. conversion of PEP to Pyruvate by Pyruvate kinase

Question 49

What can inhibit Phosphofructokinase 1 in Glycolysis?

Answer 49

ATP

Citrate

Question 50

What can inhibit Pyruvate Kinase in Glycolysis?

Answer 50

Phosphorylation (cAMP-dependent)

Alanine

Question 51

In the fed state, Insulin will activate ______ _____ that will dephosphorylate ______ ______ and initiate Glycogen production from UDP-Glucose. This can occur in the liver and skeletal muscle.

Answer 51

Protein Phosphatase

Glycogen Synthase

Question 52

In FA synthesis, _______ from Glucose 6-P entering the Pentose pathway will be required as will _____ in the cytosol be required that comes from TCA cycle intermediate that is shuttled out of the MT when elevated.

Answer 52

NADPH

Citrate

Question 53

Citrate in FA synthesis is used as a substrate to eventually synthesize _________. Citrate is first acted on by _____ ______ to change it back to OAA and ________.

Answer 53

Malonyl CoA

Citrate Lyase

Acetyl CoA

Question 54

Malonyl CoA will be the required substrate in FA synthesis to generate _______.

Answer 54

Palmitate

Question 55

Citrate will stimulate _____ _________ which is the regulatory enzyme for FA synthesis and is responsible for converting Acetyl CoA to _______.

Answer 55

Acetyl CoA Carboxylase

Malonyl CoA

Question 56

In the Fed state involving FA synthesis, Insulin will stimulate a ________ that dephosphorylates the AcetylCoA Carboxylase converting it to the ______ form.

Answer 56

Phsophatase

Active (starts FA synthesis)

Question 57

How does the Acetyl CoA Carboxylase get inhibited or turned off from continuing FA synthesis?

Answer 57

1. Low energy levels activates AMP-activated protein kinase to phosphorylate the enzyme and inactive it
2. High levels of its own downstream product Palmitoyl CoA can inhibit it

Question 58

In the Fed state , the primary fuel usage in most tissues is ________ .

Answer 58

Glucose
Liver- GLUT 2
Muscle and Adipose- GLUT 4
Brain- GLUT 1

Question 59

The Urea cycle is ______ in the fed state and _____ in the fasting state. In the fasting state there is ______ deamination of AA for GNG and _____ Urea synthesis.

Answer 59

stable

increased

increased
increased

Question 60

In the fasted state the Fructose 2,6 bisphosphatase enzyme is _______ by Protein kinase A and is acting as a phosphatase. If it was not phosphorylated it would be acting as ___________ (same overall enzyme unit). This will either increase Fructose 2,6 bis-P levels or decrease them. in GNG, you need decreased F-2,6 bisP levels to decrease inhibition of _________ to allow the pathway to go backwards.

Answer 60

Phosphorylated

Phosphofructokinase 2

Fructose 1,6 bisphosphatase

Question 61

In the fasted state, cAMP (from high glucagon) in the adipose will activate ______ _____ ______ by phosphorylating it and this will break down ____ into 3 FA and 1 Glycerol for export.

Answer 61

Hormone-sensitive Lipase

Triacylglycerol (TG)- through hydrolysis

Question 62

After Hormone sensitive lipase in the Adipose has broken down the TG and exported it , the ____ can be used as energy by converting it to _____ in skeletal muscle/ liver, and the Glycerol will be used in ______.

Answer 62

FA
Acetyl CoA (for beta oxidation- cant be used for GNG)

GNG

Question 63

In the fasting state, Glucocorticoids like Cortisol (besides glucagon) will also help stimulate Lipolysis in the adipose , and will be most important to stimulate protein degradation in muscle to supply AA primarily as ______ and _______ for usage as the primary carbons to synthesis Glucose in ______.

Answer 63

Alanine

Glutamine

GNG

Question 64

In the fasted state , FA can be beta oxidized in the liver and Muscles to make _______. This substrate can be used to make _____ in the liver (for blood circulation to muscles back to AcetylCoA) or go directly into the ____ cycle for oxidation for energy if in the muscles.

Answer 64

Acetyl CoA

Ketone bodies

TCA

Question 65

Fuel usage in the fasted state - the brain and the RBC will mainly use ______ with the GLUT 1 transporter, while the adipose, skeletal muscle, and liver are using ______. Although the skeletal muscle can use any _____ for energy as well. Under these conditions adipose and muscle are not using any glucose because their transporters ______ are off as they are insulin sensitive as glucose is low.

Answer 65

Glucose

Fatty Acids

Ketones

GLUT 4

Question 66

In the fed state, insulin will stimulate a ______ which will initiate dephosphorylation that activates many enzymes.

Answer 66

phosphatase

Question 67

Insulin will lead to the dephosphoryation of :
\_\_\_\_\_-2 (kinase activity now active)
Pyruvate \_\_\_\_\_\_ (now active)
Glycogen \_\_\_\_\_\_ (now active
Phosphorylase \_\_\_\_\_ (now active)
Glycogen \_\_\_\_\_\_\_\_ (now inactive)
Pyruvate \_\_\_\_\_\_\_ (now active)
Acetyl-CoA \_\_\_\_\_\_\_ (now active)

Answer 67

PFK-2
Pyruvate kinase
Glycogen synthase
Phosphorylase kinase
Glycogen phosphorylase
Pyruvate dehydrogenase 
AcetylCoA carboxylase (FA synthesis)

Question 68

Insulin dephosphorylation of many enzymes leading to their activation will lead to what 3 active processes?

Answer 68

Glycolysis
FA synthesis
Glycogen synthesis

Question 69

Glucagon release will lead to phosphorylation of the following enzymes:
PFK-2 (\_\_\_\_\_\_\_ activity now active)
Pyruvate kinase (now \_\_\_\_\_)
Glycogen synthase (now \_\_\_\_\_)
Phosphorylase kinase (now \_\_\_\_ )
Glycogen phosphorylase ( now \_\_\_)
Pyruvate \_\_\_\_\_\_\_\_\_ (now \_\_\_\_\_\_)
Acetyl CoA carboxylase (now \_\_\_\_\_\_)

Answer 69

phosphatase
inactive
inactive
active
active
dehydrogenase- inactive
inactive

Question 70

In the Starvation state, Glycogenolysis is _______
GNG is ______ and just enough for RBC
Lipolysis is ________ for fuel for beta oxidation.
Muscle catabolism is ______ to conserve.
Urea synthesis is ____ because of less muscle breakdown so fewer AA to degrade.
Ketone body synthesis has ________ to include brain usage.

Answer 70

depleted (absent)

very low (just enough for RBC)

increased lipolysis

decreased - conserve muscles

decreased Urea

increased Ketones

Question 71

In the Diabetic Ketoacidosis patient, Di Abietes, she is a type 1 Diabetic (15 years), and is found unconcious after being sick for 24 hours with :
Serum Glucose:400mg/dL
pH is 7.15

What is the ratio of insulin/glucagon?
What pathways are activated in this ratio?

Answer 71

Insulin is <1 to Glucagon (low insulin, high glucagon)

Glycogenolysis
Beta-oxidation (ketones will be present too)
GNG
Lipolysis
Urea cycle

Question 72

in the Diabetic ketoacidosis patient, Di Abietes, Ketones are found in the blood due to elevated ________ levels from the constant release of FA from the adipose that is beta-oxidized in the liver (insulin not present to stop the release). The ketone bodies will ______ the blood pH.

Answer 72

Acetyl-CoA

Acidify

Question 73

In the Diabetic Ketoacidosis patient, why is the Glucose elevated?

Answer 73

1. GNG very active (urea is elevated)- AA catabolism active with hormone signaling (no insulin to stop it)
2. Lack of insulin reduces glucose uptake into muscle and adipose (GLUT 4 is insulin sensitive)

Question 74

True or False:
Administering insulin to the Diabetic Ketoacidosis patient will help reduce blood glucose by =
Increase in GLUT 4 translocation to the plasma membrane.

Answer 74

True - this will increase glucose transport into cell

Question 75

True or False:
Administering insulin to the Diabetic Ketoacidosis patient will help reduce blood glucose by =
Dephosphorylation on glycogen synthase.

Answer 75

True- it will turn on glycogen synthesis and help reduce blood glucose levels

Question 76

True or False:
Administering insulin to the Diabetic Ketoacidosis patient will help reduce blood glucose by =
Increased activity of Pyruvate Kinase.

Answer 76

True- (phosphatase will dephosphorylate pyruvate kinase to activate it)
-increases flux through glycolysis

Question 77

True or False:
Administering insulin to the Diabetic Ketoacidosis patient will help reduce blood glucose by =
Phosphorylation of acetyl CoA carboxylase.

Answer 77

False - does not occur in presence of insulin, insulin presence will dephosphorylate AcetylCoA Carboxylase to active it in FA synthesis

Question 78

The ketones Acetoacetic acid and Beta-Hydroxybutyric acid are both considered _____ acids as are most biological acids.

Answer 78

Weak

Question 79

Acetoacetate has a pKa of _______.
B-Hydroxybutyrate has a pKa of _____.
This means both with be in the ______ form in the body (released their H+) and have a negative charge. Therefore increasing the presence of H+ in the blood and _____ the blood pH (acidifying).

Answer 79

3. 62
4. 41

Anion

decreasing

Question 80

In order to combat and try to level out the acidification of the blood pH caused by the elevated Ketones, the body will us _____ as a regulatory buffer. This is evident in the respiration changes in the Diabetic Ketoacidosis patient.

Answer 80

Bicarbonate ( HCO3+ H+)

Question 81

Bicarbonate is made by the enzyme _____ ______ combining ____ and _____ to make _____ ____.

Answer 81

Carbonic anhydrase

CO2 and H20

Carbonic acid (then a Hydrogen can dissociate to become Bicarbonate - direction of reaction depending on CO2 levels)

Question 82

The direction of the reaction of _______ acid levels vs. _______ as a buffer system depends on the levels of ______ in the body.

Answer 82

Carbonic acid

Bicarbonate

CO2

Question 83

As CO2 levels in the body increase, this will help _______ pH. (respiratory compensation)

Answer 83

decrease (more bicarbonate)

Question 84

As CO2 levels decrease in the body, this will help buffer to _____ pH. (respiratory compensation)

Answer 84

increase (more carbonic acid)

Question 85

pH of blood is normally around _______.

Answer 85

pH 7.4

Question 86

In the Metabolic Ketoacidosis patient
Blood pH was 7.15

Is she in Metabolic Acidosis or Alkalosis?

Answer 86

Metabolic Acidosis

Question 87

Di Abiete’s arterial blood was 23mmHg (ref 37 to 43) and her serum bicarbonate was 8mEq/L (ref 24 to 28)..

What direction did the bicarbonate buffer shift to compensate for this change (left or right)?

Answer 87

Left shift
-she has increased respiration to decrease levels of CO2 which will then help increase Carbonic acid to fight the increase in H+ (blood pH is acidic) - so level of bicarbonate was very low (carbonic acid is high instead)

Question 88

Why is Di Abiete Metabolic Acidosis patient presenting with elevated BUN (blood urea nitrogen)?

Answer 88

GNG is very active and so a lot of Ammonia is being produced

Question 89

Patient Linda - 18 month old female- found unresponsive , Blood glucose was 20mg/dL (very low).
Urinalysis revealed elevated levels of Glutaric, ethylmalonic, dicarboxylic acids.
She has not eaten the night before nor recently.
Before treatment , what is the ratio of insulin to glucagon?
What pathways are activated?

Answer 89

insulin <1 compared to glucagon (fasted state)

Glycogenolysis 
Beta-oxidation
GNG
Lipolysis
Urea Cycle

Question 90

In patient Linda, presenting with hypoglycemia yet she is in a fasted state, what is the enzyme she is missing related to Beta-Oxidation and what length chain FA can she not process?

Answer 90

Missing Acyl-CoA Dehydrogenase specific to Medium chain FA

Question 91

What are the 3 effects of Linda not having the first enzyme in Beta oxidation for medium chain FA (missing Acyl-CoA dehydrogenase) ?

Answer 91

Decrease in FAD and NAD reduction
Decrease in Acetyl-CoA production

Increase in Medium chain FA in the Mitochondria

Question 92

The majority of FA (Fatty Acyl CoA) released in lipolysis are _____ chain, as the synthesis of Palmitate or _______ FA are denovo in the body. These require _______ to be transported across the MT membrane.

Answer 92

long

C16

Carnitine

Question 93

Medium chain FA are ____ to ___ carbons. Therefore Long chain FA in the MT will turn into Medium chain FA after _______ cycles through Beta oxidation. Then _______ will occur in the MT.

Answer 93

8 to 10

2 to 3

Accumulation

Question 94

Medium chain FA are oxidized through ______ ______. This process will generate the _______ acids that are seen in hypoglycemic Linda’s Urine. This explains one of her clinical symptoms.

Answer 94

Omega oxidation

Dicarboxylic Acids

Question 95

In hypoglycemic patient Linda, beta oxidation is impaired due to her lack of __________ _______ enzyme to process the Medium chain FAs. This means ______ are not generated due to lack of _____. FFA can then not be used for energy and increases reliance on _______.

Answer 95

Acyl-CoA Dehydrogenase (MCAD)

Ketones
Acetyl CoA

Glucose (will make it very low in blood because the liver and adipose and muscle now can only use it)

Question 96

The decrease in Acetyl CoA caused by the Acyl-CoA dehydrogenase problem (inhibiting Beta-oxidation of medium chain FA) will decrease _____ then reducing the energy needed for _____. This lowered Acetyl CoA will reduce the allosteric activating power of it upon _______ ______. All of this will inhibit GNG and decrease the livers ability to make Glucose.

Answer 96

ATP
GNG

Pyruvate Carboxylase (converts Pyruvate to OAA with Biotin cofactor)