Citric Acid Cycle

METABOLISM

Vocabulary

Catabolism:

Anabolism:

Glycolysis:

Citric Acid Cycle:

Electron Transport Chain:

Acetyl CoA:

Pyruvate:

Ketones:

Glucogenic Amino Acids:

Ketogenic Amino Acids:

Carbon Skeleton:

Deanimation:

Definition of Metabolism: Chemical reactions involved in releasing energy, breaking down compounds, making new compounds, and transporting compounds from place to place.

The Principal Organs:

Digestive Organs
Liver
Pancreas
Heart and Blood Vessels
Kidneys

Energy Metabolism Centers on 4 Basic Units:

From Carbohydrate – glucose
From Lipids – glycerol and fatty acids
From Protein – amino acids

Metabolic pathways break down compounds ( ) or build more complex compounds ( )

Metabolic pathways are never completely inactive

BREAKDOWN and RELEASE of ENERGY - CARBOHYDRATE

Glycolysis: the metabolic pathway that breaks down glucose

Glucose  Pyruvate  Acetyl CoA Citric Acid Cycle → Electron Transport Chain → ATP

If oxygen is unavailable, these reactions cannot occur and lactate is formed

Lactate is an alternative fuel that muscle cells can use, or liver cells can convert to glucose

BREAKDOWN and RELEASE of ENERGY – FATS

To begin breaking down fat, the body breaks triglycerides into glycerol and fatty acids

Most of the energy is stored in the fatty acids (glycerol can be converted to glucose or pyruvate)

Fatty acids cannot be converted to glucose

Fatty acids usually produce substantially more energy than glucose

BREAKDOWN and RELEASE of ENERGY – PROTEIN

Protein is only used for energy in the absence of carbohydrate or fat

Carbon skeletons: are formed by the deamination of amino acids and can enter the metabolic pathways at several points depending on their structure (# carbons)

Glucogenic Amino Acids: become pyruvate or a citric acid cycle intermediate

Ketogenic Amino Acids: become acetyl CoA

FEASTING

Excess fat?

Excess protein?

Excess carbohydrate?

FASTING

The body’s top priority is to meet energy needs for on-going cellular activity. Normally, we eat or “refuel” to supply this energy. If we are starving or fasting, the body must use fuel reserves from its own tissues
Glycogen is used first, along with some fat breakdown. Glycogen is exhausted within several hours.
Low blood glucose serves as a signal to promote further fat breakdown
A few hours into the fast, most of the cells are depending on fatty acids, except brain, nerve, and red blood cells. Body proteins must always breakdown to some extent during fasting to provide glucose for these cells. However, the body cannot afford to breakdown its own protein at a high rate.
Eventually, the body adapts, and ketone bodies are made from fatty acids to provide fuel for some brain cells. After several weeks of fasting, ketones are providing much of the energy needs of these cells, although many areas of the brain still rely on glucose.
The average person has ~3 weeks of fat stores. As the later stages of starvation exhaust fat stores, the body again turns to protein, its sole remaining fuel source.
In the final stages of protein depletion, the body deteriorates rapidly.
Death usually occurs when ~half of the body’s protein has been depleted.

How long can a person survive total starvation? Depends on: