Autosomal Recessive Disorders

Question 1

What are the 3 general consequences of enzyme deficiency?

Answer 1

• Substrate accumulation
• Product deficiency
• Upregulation of minor alternate pathway

Question 2

What is the clinical course of Tay-Sachs?

Answer 2

• Normal development for 3-5 months
• Slowing of progress -> plateau -> loss of milestones
• By 8-10 months: decrease in purposeful activity and lack of awareness of surroundings
• Death by age 5

Question 3

Symptoms of Tay-Sachs

Answer 3

• Hyperacusis and easily startled
• Progressive weakness and hypotonia
• Decreased visual attentiveness and abnormal eye movements
• Eventual deafness and blindness
• Seizures
• Vegetative state

Question 4

What enzyme deficiency disorders are caused by accumulation of substrate?

Answer 4

• Tay-Sachs
• mucopolysaccharidoses
• I-cell
• glycogen storage diseases
• urea cycle defects

Question 5

What enzyme deficiency disorders are caused by product deficiency?

Answer 5

• glycogen storage diseases

- biotinidase deficiency

Question 6

What enzyme deficiency disorders are caused by toxic effects of abnormal metabolites?

Answer 6

• Galactosemia

Question 7

What is the incidence of Tay-Sachs disease and carriers?

Answer 7

Disease: 1/3500 Ashkenazi Jews and 1/300,000 non-Jews

Carrier: 1/25 Ashkenazi Jews and 1/300 non-Jews

Question 8

What enzyme deficiency causes Tay-Sachs?

Answer 8

Hexosaminidase A (alpha subunit)

Question 9

What is the function of hexosaminidase A?

Answer 9

Degradation of ganglioside GM2 in neuronal lysozymes

GM2 -> GM3 + galNAc

Question 10

Allelic heteogeneity

Answer 10

Different alleles leading to very similar phenotypes

Question 11

What mutation causes Tay-Sachs?

Answer 11

Multiple different mutations to HEXA:

• insertion => frameshift
• missense => defective splicing
• deletion => no transcription
• missense => defective processing

Question 12

Tay-sachs brain histology

Answer 12

Neurons distended due to accumulation of fatty GM2 in lysosomes

Question 13

What are the basic structural elements of GM2

Answer 13

cerebroside (3 carbon backbone) - glu - gal - NANA and galNAc

Question 14

What elements are removed in the catabolism of GM1 -> GM2 -> GM3

Answer 14

1. terminal galactose removed

2. N-acetylglucosamine removed

Question 15

How does hexosaminidase activity compare in people +/- Tay-Sachs?

Answer 15

No difference

Question 16

Compare the gene dosage of hexosaminidase A in normal, parents, and Tay-Sachs patients

Answer 16

• normal
• 1/2 (obligate heterozygotes)
• negligable

Question 17

What genes are involved in hexosaminidase A synthesis and how are the subunits assembled?

Answer 17

1 alpha chain (HEXA) + 1 beta chain (HEXB) + activation by activator (GM2A)

Question 18

What is the function of activator?

Answer 18

Used to bring fatty, hydrophobic GM2 to the water soluble proteins it needs to interact with in vivo

Question 19

What are symptoms of mucopolysaccharidosis I?

Answer 19

• Joint contractures
• Joint stiffness
• Dysostosis multiplex = radiographic abnormalities (Gibbus abnormality, rounded hand x-ray, thicker ribs, thinner pelvis)
• Visceromegaly = enlarged liver and spleen
• Coarse facies
• Corneal clouding
• Metachromasia test of urine

Question 20

Which mucopolysaccharidosis is NOT autosomal recessive?

Answer 20

Hunter is X-linked

Question 21

Where do GAGs accumulate in patients with mucopolysaccharidoses?

Answer 21

Tissues and urine

Question 22

How were cross-corrective studies used in the study of mucopolysaccharidoses?

Answer 22

• Cells from patients with different mucopolysaccharidoses cultured together with radioactive sulfate
• Healthy cells should reach a steady state where incorporation and breakdown are constant
• Diseased cells continue to accumulate sulfate as they can’t break down GAGs
• If diseased cells cross-correct, must impact different enzymes
• If diseased cells DON’t cross-correct, they must impact different enzymes

Question 23

Locus heterogeneity

Answer 23

Different genes (loci) => same phenotype

Question 24

Allelic heterogeneity

Answer 24

different mutations at the same locus => same phenotype

Question 25

What class of diseases do Tay-Sachs and mucopolysaccharidoses belong to and why?

Answer 25

Storage diseases because the buildup of the involved molecules is visible

Question 26

Why is there toxicity associated with defective urea cycle enzymes?

Answer 26

Ammonia buildup

Question 27

How are urea cycle enzyme defects treated?

Answer 27

• Give product of defective enzyme reaction so cycle can continue
• Any accumulated intermediate from before defective enzyme will be excreted in urine

Question 28

What is the clinical consequence of propionyl carboxylase deficiency?

Answer 28

Acidosis

Question 29

What products are generated from alternative pathways for propionyl CoA when propionyl CoA carboxylase is deficient?

Answer 29

• propionic acid
• 3-hydroxypropionante
• methylcitrate
• propionyl glycine
• lactate

Question 30

What are the biotin dependent carboxylases?

Answer 30

• Propionyl CoA carboxylase
• Acetyl CoA carboxylase
• Methylcrotonal carboxylase
• Pyruvate carboxylase

Question 31

What is the function of holocarboxylase synthase?

Answer 31

Adds biotin to biotin-dependent carboxylase apoenzymes

Question 32

Apoenzyme

Answer 32

Inactive enzyme without cofactor

Question 33

Holoenzyme

Answer 33

Active enzyme with cofactor

Question 34

What enzyme is defective in early onset multiple carboxylase deficiency?

Answer 34

holocarboxylase deficiency

Question 35

What enzyme is defective in late onset multiple carboxylase deficiency? Why are the symptoms late onset?

Answer 35

• Biotinidase
• Apoenzymes can be biotinilated, but biotin cannot be recycled from degraded enzyme so eventually biotin will be depleted such that the biotin cycle cannot proceed

Question 36

What is the purpose of the biotin cycle?

Answer 36

• Add biotin to biotin-dependent carboxylase apoenzymes

- Recycle biotin after proteolytic degradation of biotinilated proteins

Question 37

What is the function of biotinidase?

Answer 37

Removes biotin from lys residues after proteolytic degradation of a biotin-dependent carboxylase

Question 38

What intermediate causes the toxicity associated with galactosemia?

Answer 38

gal-1-p

Question 39

What alternative pathway for galactose is upregulated in galactosemia?

Answer 39

Reduction of galactose to galactitol via the polyol pathway

Question 40

What issue does galactitol cause in the lens?

Answer 40

Cataracts: galactitol is osmotically active, pulling water into the lens