(L9) Integration of Metabolism

Question 1

What are key molecules that connect the metabolic pathways?

L10 S10 LO1

Answer 1

Glucose 6-phosphate:

• glycogen metabolism
• glycolysis
• PPP

Pyruvate:

• acetyl CoA
• OAA (gluconeogenesis)
• lactate
• alanine (protein synthesis)

Acetyl CoA:

• CO2
• ketones
• FA metabolism

Question 2

What tissues are capable of using all major metabolic pathways?

L10 S9 LO1

Answer 2

Only the liver

Question 4

What are the metabolic characteristics of the liver?

L10 S14 LO2

Answer 4

• processes nutrients
• reacts to dietary conditions
• maintains blood nutrient concentrations
• secretes proteins used by the rest of the body
• processes toxins and waste

Uses FAs as energy source

Question 5

What organ first receives newly absorbed nutrients?

L10 S16 LO2

Answer 5

The liver via the hepatic portal vein.

Question 6

What are the metabolic characteristics of adipose?

L10 S17 LO2

Answer 6

Stores triglycerides in a fed state (insulin signal)

Released FAs in states of hunger and exercise (glucagon and epinephrine signals)

Uses glucose and FAs as energy source

Question 7

What are the metabolic characteristics of the brain?

L10 S18 LO2

Answer 7

Consumes energy using 20% of body’s O2

Uses glucose and ketone bodies

Question 8

What are the metabolic characteristics of the heart?

L10 S19 LO2

Answer 8

Uses glucose, lactate, FAs, and ketone bodies as fuel

Must have O2

Cannot store glycogen

Question 9

What are the metabolic characteristics of skeletal muslce?

L10 S20 LO2

Answer 9

Uses FAs and ketone bodies as fuel

High amounts of glycogen store (75% of body)

Question 10

What are the three mains systems that generate ATP and when are they activated?

L10 S24 LO3

Answer 10

ATP/phsophocreatine reserves:
-lasts seconds before expended

Anaerobic glycolysis/glycogenolysis
-starts shortly (~20secs) after activity and ends after roughly 2 minutes

Oxidative phosphorylation and FA metabolism:
-starts nearly 2 minutes after activity

Question 11

Roughly how long will stored ATP last during heavy activity?

L10 S26 LO3

Answer 11

1-2 seconds

Question 12

What happens after initial ATP reserves are expended during activity?

L10 S26 LO3

Answer 12

Phosphocreatine stored in muscles replenishes supplies while other methods of ATP production are activated

Question 13

Why can anaerobic glycolysis no be a long term source of ATP during prolonged activity?

L10 S27 LO3

Answer 13

Lactate is produced and when is builds up it results in muscle fatigue

Question 14

What happens to lactate produced by anaerobic glycolysis?

L10 S28 LO3

Answer 14

Enters the Cori cycle and is used to regenerate glucose in the liver

Question 15

What is the energy charge of a cell and what level does the cell try to maintain?

L10 S30 LO3

Answer 15

ATP:ADP ratio

Energy charge is maintained within a range of 0.8-0.95

Question 16

What is the reducing power of a cell?
How does it relate to the energy charge of a cell?

L10 S30 LO3

Answer 16

NADH:NAD+ ratio

It varied inversely with energy charge

Question 17

What are the main SHORT term satiating signals and what do they cause?

L10 S32 LO4

Answer 17

Cholecystokinin (CCK)
-triggers sense of satiation in the brain

Glucagon like peptide-1:

• triggers sense of satiation in the brain
• triggers synthesis and release of insulin by pancreas

Question 18

What are the main hunger signals and what do they cause?

L10 S33 LO4

Answer 18

Ghrelin:

• secreted by stomach
• acts on hypothalamus to stimulate sense of hunger
• increases before a meal; decrease after

Question 19

What are the main LONG term satiating signals and what do they cause?

L10 S34 LO4

Answer 19

Leptin:
-secreted by adipose
-acts on hypothalamus to: —trigger sense of satiation
—stimulate energy expenditure

Insulin:

• secreted by pancreatic β cells
• affects wide variety of functions and cells

Question 20

What is occurring in the body in a fed state?
What signals are present in the blood?

L10 S37-38 LO4

Answer 20

Signals:

• insulin (high)
• glucose (high)
• glucagon (low)

Liver:

• glycolysis
• glycogen synthesis
• FA/TAG synthesis

Adipose:
-FA/TAG synthesis and storage

Question 21

What is occurring in the body in a fasting state?
What signals are present in the blood?

L10 S39-40 LO4

Answer 21

Signals:

• insulin (low)
• glucose (low)
• glucagon (high)

Liver:

• glycogenolysis
• gluconeogenesis
• FA oxidation
• ketone body formation

Adipose:
-FA oxidation and release

Question 22

What is AMPK and what is its function?

L10 S45 LO4

Answer 22

AMP-activated protein kinase

Inactivated by high ATP levels and activated by low ATP levels

Phosphorylates numerous targets regulating function based on energy state

AMPK is active during low energy balance and stimulates processes that will increase energy balance

Question 23

What are the main energy sources of RBCs, brain, adipose, liver, and muscles?

L10 S13 LO2

Answer 23

RBC: glucose

Brain: glucose and ketone bodies (starving)

Adipose: glucose and FAs

Liver: FAs

Muscles: glucose, FAs, and AAs