Liver Metabolism 2: Fructose And Galactose

Question 1

How does fructose and galactose enter hepatocytes

Answer 1

Via GLUT 2 transporters

Fructose goes straight into glycolysis where as galactose can go into glycolysis or be used to form glycolipids and glycoproteins

Question 2

Major differences between fructose and glucose metabolism

Answer 2

1) fructose does NOT stimulate insulin
- glucose does

2) gets metabolized by fructokinase in the liver
- glucose gets metabolized by glucokinase

3) fructose can be uptaken by hepatocytes without insulin presence
- glucose can but usually requires insulin presence (requires it if going to be uptaken by GLUT 4 receptors as well)

4) fructose has no negative feedback loop with metabolism (will continue metabolism until all is used up if allowed to)
- glucose has a built in negative feedback regulation built in

Question 3

Fuctokinase

Answer 3

Enzyme that is irreversible and ONLY found in liver, small intestine cells and kidney

Phosphorylates fructose -> F1P

This enzyme allows metabolism to bypass the PFK-1 regulatory step
- skips F6P -> F 1,6 P step of glycolysis

Rate of phosphorylation is 10x greater than glucokinase (way faster)**

If levels of fructose are insanely high, glucokinase can start to phosphorylate it as well, but it has an exceptionally high Km (low affinity)***

Question 4

Aldolase enzymes

Answer 4

both A/B/C exist inside the liver

• all 3 can cleave fructose 1,6 BP -> Glyceraldehyde-3-phosphate
• however ONLY aldolase B can cleave fructose 1-P -> glyceraldehyde

The end product of aldolase mechanisms is Dihydroxyacetone Phosphate (DHAP) which enters glycolysis and gluconeogenesis directly and glyceraldehyde.

glyceraldehyde needs to be phosphorylated to glyceraldehyde 3-phosphate first though before being turned into DHAP

Question 5

Essential fructosuria

Answer 5

An autosomal recessive disorder where there is a deficiency of fructokinase enzymes

Is a benign condition where fructose does accumulate in the urine
- no clinical symptoms show up since glucokinase takes over fuctokinase job since fructose levels end up being so high in the blood

Question 6

Fructose intolerance

Answer 6

Autosomal recessive disorder where there is a deficiency of aldolase B in hepatocytes

Leads to excess fructose 1-phosphate (since aldolase B is the only enzyme to cleave this)

Symptoms:

• severe hypoglycemia
• vomiting
• jaundice
• hemorrhage
• hepatomegaly
• renal dysfunction
• hyperuricemia
• lactic acidemia

Treatment = NO fructose/sucrose in diet

Question 7

The polyol pathway in the liver

Answer 7

A pathway used to convert glucose into fructose (usually only in glucose excess though)

1) D-glucose is reduced to sorbitol (polyol) via aldose reductase
- this enzyme is found in pretty much every tissue
- *glucose in excess will spontaneously metabolize into sorbitol

2) sorbitol is then converted to D-fructose via sorbitol dehydrogenase
- this enzyme is only found in liver and seminal vesicles

Question 8

What is the only endogenous polyol?

Answer 8

Sorbitol

All other polyol (sugar alcohols) are found externally and synthetically

Question 9

How does sorbitol effect diabetes mellitus

Answer 9

In hyperglycemia conditions, the excess glucose is converted into sorbitol spontaneously

However, excess sorbitol is bad because only liver can metabolize it to fructose, therefore excess sorbitol begins to build-up
- causes high osmotic uptake of water

Symptoms:

• cataracts
• retinopathy
• nephropathy
• peripheral neuropathy

Question 10

How does D-galactose and D-glucose differ?

Answer 10

D-Galactose carbon 3 is flipped

Question 11

Lactose synthesis in humans

Answer 11

Produced by lactating mammary glands
- synthesized in Golgi apparatus in these glands

Uses the enzyme: lactose synthase (UDP-galactose:glucose galactosyltransferase)
Which requires two 2 protein complexes to form:
1) = B-D-galactosyltransferase (found in all tissues
2) = a-lactalbumin (found only in mammary glands)

a-lactalbumin is ONLY synthesized in the presence of prolactin

Question 12

Galactokinase deficency

Answer 12

Rare autosomal recessive disorder where there is little-no galactokinase enzymes
- causes elevation of galactose in blood and urine and elevated galactitol presence

this causes cataracts

Treatment = restrict diet from galactose and lactose

Question 13

Aldose reductase

Answer 13

Enzyme that converts galactose to galactitol (ONLY in extreme levels of galactose)
- the levels have to be so high that it really only comes into play with galactokinase deficiencies

found in kidneys/retina/lens/nerve tissues and ovaries

Causes conversion of galactose -> galactitol
- excess galactitol = cataracts

Question 14

Classic galactosemia

Answer 14

Is a autosomal recessive disorder where there is a deficiency of galactose 1-phosphate uridylyltransferase enzymes

Causes accumulation of galactose 1-phosphate and galactitol

Symptoms: (begins at breast feeding ages)

• liver and brain damage symptoms
• cataracts
• Developmental delays
• infertility

screening can be done by chorionic villus sampling

Treatment = remove all galactose and lactose from diet