Karyotype & Aneuploidy

Question 1

What are the types of chromosomal abnormalities

Answer 1

Numerical chromosomal abnormalities May be a result from:

• non-disjunction during meiosis
• non- disjunction during mitosis
• Mosaicism

Structural chromosomal abnormalities May arise from
-deletions
-duplications
-inversions
-translocations
Isochromosom3s
-ring chromosomes

Question 2

How is a karyotype generated?

Answer 2

1. Blood sample added to culture medium
2. White blood cells, lymphocytes, divide in the presence of phytohemagglutinin
3. Dividing cells arrested in metaphase with spindle inhibitor colchicine
4. Cells swollen with hypoton8c solution
5. Spread onto glass slide and fix
6. Stain and examine with microscope

Question 3

What is a karyotype?

Answer 3

These are analyzed by microscopy

• only relatively large alterations will be observable by karyotype
• banding pattern must be altered

Can detect deletions, duplications, inversions, translocations, other abnormalities

Deletions larger then 5 Mb are usually by standard karyotype (this is by microscopy)
-Deletions that aren’t visible by karyotype are called “Microdeletion”

Question 4

Classify chromosome by structure

Answer 4

1. Total. Length of the chromosome is equal on both ends of the chromosome from the centromere- metacentric
2. Sub metacentric- p are shorter than q arms
3. Acrocentric- only satellites on the p side

Question 5

What are used to classify chromosomes?

Answer 5

1. Total length of the chromosome
2. position of the centromere
3. Presence of satellites

Question 6

How can we classify chromosomes by G-banding pattern?

Answer 6

Ideogram of the G-banding pattern of metaphase chromosomes stained with Geimsa

Resolution: can’t detect deletions or insertions smaller than 5Mb

Question 7

What are FISH?

Answer 7

FISH are big; ASO probes are small

• typically to get a good signal, they are about 100 kB or bigger
• This allows a lot of fluorescent tags to be packed into the probe

With the correct probe FISH can detect:

• numerical chromosome aberrations
• deletions
• translocations
• gene amplification(very important in cancer characterization)

FISH May detect many “Microdeletions” because FISH is of higher resolution than G-band karyotype
-As long as the deletion is larger than the probe being used, the deletion can be detected

Question 8

Contrast interphase FISH and metaphase FISH

Answer 8

Interphase FISH- rapid test, avoids need for cell culture, chromosomes are de condensed in the nucleus

Meta9hsse- must first culture the cells, usually done @fter a G-band karyotype (condensed metaphase chromosomes), gives location information because the banding pattern would be known

Question 9

What is a chromosomal painting?

Answer 9

Chromosomal painting, spectral karyotype, SKY FISH
-Each chromosome probed so that it fluorescent a different color

Can show translocations and rearrangements

Very useful in cancer genetics- genetic stability in advanced cancer

Question 10

Summarize chromosomal abnormalities

Answer 10

Chromosomal abnormalities account fir a large number of spontaneous abortions
-(non induced embryonic or fetal death or passage of products of conception before. 20 weeks gestation)

Chromosomal abnormalities May be

• numerical
• structural

Question 11

What are the numerical chromosomal abnormalities?

Answer 11

Euploidy(polyploidy) (number of chromosomes is in multiples of 23)

• Diploidy- normal human compliment of chromosomes
• triploidy- contain three copies of each chromosome(69)- not compatible with life
• tetraploidy- lethal- contain four copies of each chromosome (92)

Aneuplody-

• Monosomy: loss of a chromosome
  
  • Nit compatible with life (except Monosomy X: Turner syndrome)
• Trisomy: presence of an additional chromosome (only 3 are compatible with life)

Question 12

What is aneuploidy?

Answer 12

Chromosome number isn’t a multiple of 23

• Monosomy: loss of a chromosome. Nit compatible with life (except in Turner syndrome)
• Trisomy: presence of an additional chromosome (frequently confused with triploidy(69 chromosomes)

Autosomal trisomy- Edward syndrome (18), Down syndrome, Patau syndrome(13)

Sex chromosome aneuploidy- (45,X) Turner, 47, XXY) kleinfekter sundrome

Question 13

What are the risk factors of trisomy 21?

Answer 13

Most common live born autosomal trisomy

Risk factors: increased maternal age, increases risk of meiotic nondisjunction during oogenesis (most common is meiosis 1 nondisjunction)

Question 14

WhAt are the features of trisomy 21?

Answer 14

• intellectual” disability
• short stature
• depressed nasal bridge, unslanting palpebral fissures, epicantal folds
• Cingenitak heart defects
• single palmar crease
• develop changesssimilar to Ahlzeimer’s disease at a relatively young age.
  
  • One if the genetic factors responsible fir Ahlzeimer’s is localized to chromosome 21(amyloid precursor protein (APP)

Question 15

What is the main use of FISH probes?

Answer 15

Will work with interphase stage cells to allow rapid return of results

Prenatal diagnosis with maternal serum screening and ultrasound

Karyotype analysis or FISH with fetal cells is confirmatory

Question 16

What are the genetic causes of down syndrome?

Answer 16

Trisomy 21- due to non-disjunction during meiosis.

Down syndrome May also result from R9bertsonian translocation

Some children may be mosaic- some cells gave trisomy 21; som3 other cells may have normal karyotupe

Question 17

What are the features of edwards syndrome?

Answer 17

Genetic mechanism is nondisjunction during oogenesis

Features:
-Clenched fist, overlapping of fingers

• Rocker bottom feet
• Congenital heart defects
• Low set ears , small lower jaw (micrognathia)
• Microcephaly
• Intelkectual disability

Question 18

What is the list of features of Patau syndrome (+13)?

Answer 18

Most common genetic mechanism is nondisjunction during oogenesis

Features

• polydactyly
• cleft lip and palate
• microphthalmia
• Microcephaly
• intellectual disability
• cardiac anomalies (VSD or ASD)

Question 19

What are the common features of (45,X)/Turner syndrome?

Answer 19

X chromosome Monosomy- usually due to nondisjunction during spermatogenesis

• Short stature
• webbed neck, cystic hygrometer at birth (neck swelling)
• Primary amenorrhea/no menstruation
• Gonadal dysgenesis
• ‘Streak’ ovaries
• Lymphoedema of hands and feet

Question 20

Explain mosaic Turner syndrome

Answer 20

Many TS patients are mosaic

• Some of their cells are 45, X
• Other cells are 46,XX and 47,XXX (indicate mitotic nondisjunction during embryogenesis)

Cells with 45,X: have no Barr body (inactivated X-chromosome )(female with NO Barr bidy)

-Isichromosome X will also lead to Turner syndrome

Question 21

Contrast he not your and mosaic Turner syndrome

Answer 21

Mosaic Turner syndrome-

• fertilized egg, 46,XX
• Mitotic nondisjunction during embryogenesis
• Some cells are 45,X others are 46,XX and 47, XXX
• during a post-fertilization mitosis, one of the X chromosomes evicted during cell division

Phenotypic-

• fertilized egg, 46, XX
• Mitotic nondisjunction during embryogenesis
• Some cells are 45, X others are 46, XY
• Mosaic 45,X/46,XY are recommended fir oophorectomy due to risk of gonadoblastoma
• during post fertilization mitosis, the Y chromosome is evicted during cell division

Question 22

What are the features of kleinfekters?

Answer 22

Genetic mechanism responsible for kleinfelter syndrome is nondisjunction during meiosis

-Some individuals may be mosaic (46XY/47XXY/48/XXXY)

Features:

• Gyecomastia
• Female distribution 9f hair
• Infertility and testicular atrophy due to low levels of testosterone
• Feminization of features

Question 23

What are the probability of each abeuplofy occurring?

Answer 23

Trisomy 21- 1/830 live births

47, XXY(kleinfelter)- 1/1000 live births

45,X(Turner) -1/4000 live births

Trisomy 18- 1/7,50l live births

Trisomy 13- 1/22,700 live births

Question 24

What is non-disjunction ?

Answer 24

The most common type in females is meiosis 1

• Individuals with down syndrome usually have two maternal chromosomes 21 and one paternal chromosome 21
• If two maternal chromosomes aren’t identical to each other, the non-disjunction occurred at meiosis 1 (that is they have different alleles )
• If the two maternal chromosomes are identical, the non-disjunction occurred at meiosis 2(sister chromatids shown as two blue alleles)

Question 25

How can we draw out which type of nondisjunction occurred?

Answer 25

-47,XXY kleinfekter syndrome may be caused by nondisjunction during meiosis 1 or meiosis 2 in the mom, or nondisjunction during meiosis 1 in dad

• 47, XYY fetus is the result of meiosis 2 nondisjunction in dad
  
  • May not be caused by meiotic non-disjunction in the mom (hint: thus person is also)
• 47, XXX females may be the result of meiosis 1 or 2 nondisjunction in moms or meiosis 2 non-disjunction in dad
  
  • may not be caused by meiosis 1 nondisjunction in dad

Question 26

What is Mosaicism?

Answer 26

The presence of two or more populations of cells in one individual with different genotypes

Mixed somatic/germline mosaic
Some percentage of the cells in a person body are of one genotype, and other cells are of another genotype

Confined germline mosaic
All cells in the body are of one genotype
Cells of the gametes are something else (leads to high risk of having children with a genetic disorder)

Question 27

What are the two ways could be mosaic for down syndrome ?

Answer 27

1. Non-disjunction May occur as a post-zygotic event during embryonic development; that is mitotically (after fertilization of a normal ovum and normal sperm)

This will lead to 2 cell types:

• one continues as normal karyotype
• the other with trisomy 21

2. Trisomy rescue- nondisjunction May occur in the ovum during oogenesis, and fertilization by a normal sperm loads to trisomy 21 in the conception
   - During a post-fertilization mitosis, one of the extra chromosone 21 is evicted during cell division
   - Now the fetus has 2 cell types, one with normal karyotype, and one that is trisomy 21