Session 4: Chromosomal Abnormalities

Question 1

Describe the structure of a chromosome

Answer 1

Each chromosome consists of proteins and ONE long molecule of DNA. Each chromosome consists of a short arm (p) and long arm (q) connected by a centromere.

Question 2

What is a chromatid?

Answer 2

One half of a duplicated chromosome.

Question 3

Why is it important that chromosomes replicate during the S phase BEFORE cell division?

Answer 3

So that each daughter cell receives a complete set of chromosomes.

Question 4

How many chromosomes are in each diploid cell in our body?

Answer 4

46 chromosomes in each diploid cell = 23 pairs: 22 pairs of autosomes and 1 pair of sex chromosomes.

Question 5

What is a karyotype?

Answer 5

Describes the number of chromosomes and what they look like (size bands, centromere placement).

Question 6

What is a karyogram?

Answer 6

Study of the whole set of chromosomes arranged in PAIRS by size, and position of centromere.

Question 7

What is a chromosome ideogram?

Answer 7

A graphical or schematic representation of chromosomes.

Question 8

What stains can be used on condensed chromosomes to produce a visible karyotype?

Answer 8

A Giemsa stain/G-banding can be used to produce a visible karyotype.

Question 9

What is karyotyping?

Answer 9

The process of pairing and ordering ALL the chromosomes of an individual. Karyotypes are prepared from mitotic cells that have been arrested in the metaphase/prometaphase stage of the cell cycle (when chromosomes are MOST condensed).

Question 10

Karyotyping is used to detect changes in…

Answer 10

1) Chromosome number 2) Structural chromosomal changes = deletions, duplications, translocations, inversions.

Question 11

Which tissue types can be a source of mitotic cells for karyotyping in adults?

Answer 11

Peripheral blood, skin biopsy, tumour biopsies or bone marrow samples (cancer).

Question 12

How can prenatal diagnosis be carried out for karyotyping?

Answer 12

Amniocentesis or chorionic villus specimens used as source of cells.

Question 13

What are some indications (reasons) for karyotyping?

Answer 13

1. Prenatal screening = Down’s syndrome (risk increases as mother ages >35), family history, abnormal ultrasound of foetus.
2. Birth defects (post-natal screening) = Malformations, mental/developmental impairments.
3. Abnormal sexual development = KLINEFELTER syndrome, TURNER syndrome.
   4.** Infertility of the mother** = recurrent foetal loss. 5. Leukaemia and other cancers.

Question 14

Report the normal female karyotype in standard format of karyotyping.

Answer 14

46,XX

Question 15

What are the three main types of chromosomal abnormalities?

Answer 15

1) Polyploidy 2) Aneuploidy 3) Chromosomal mutations = deletions, duplications, inversion, insertion, translocation.

Question 16

What are the main (subtle) structural chromosomal mutations?

Answer 16

Deletion, duplication, inversion, insertion, translocation.

Question 17

What is polyploidy?

Answer 17

Heritable condition of possessing more than two complete sets of chromosomes.

Question 18

Types of polyploidy in humans

Answer 18

True polyploidy rarely occurs in humans (not viable = most triploid babies will miscarry or die in the first year of life): Triploidy = 69, XXX; Tetraploidy = 92, XXXX.

Question 19

What is the most common cause of triploidy (a type of polyploidy in humans)?

Answer 19

Polyspermy (one oocyte fertilised by >1 spermatozoa).

Question 20

What is aneuploidy?

Answer 20

Presence of an abnormal number of chromosomes in a cell: usually one more or one less.

Question 21

What is the most common type of aneuploidy in humans?

Answer 21

Trisomies = 0.3% of all live births. Represent ~35% of spontaneous abortions.

Question 22

What is the most common cause of aneuploidy?

Answer 22

Nondisjunction of chromosomes during meiosis (most often during maternal meiosis 1).

Question 23

After what age do women have a sharp increase in the risk of trisomies?

Answer 23

The risk of trisomy increases sharply after age of 35.

Question 24

Give examples of three trisomies in humans (autosomal aneuploidies)?

Answer 24

1. Trisomy 21: Down’s syndrome 2. Trisomy 18: Edwards syndrome 3. Trisomy 13: Patau syndrome.

Question 25

What is one viable trisomy in humans?

Answer 25

Trisomy 21 - Down's syndrome.

Question 26

Why is trisomy 21 (Down's syndrome) viable?

Answer 26

Trisomy 21 is the only viable autosomal trisomy because the number of protein-coding sequences predicted for chromosome 21 is the smallest of any human chromosome.

Question 27

What are the three causes of Down's syndrome?

Answer 27

1. **Trisomy 21**: ~95% of cases - more common in boys than girls (1.5 : 1). 2. **Mosaic's Down's syndrome**: rare form in which person only has SOME cells with extra copy of chromosome 21. 3. **Translocation Down's syndrome**: occurs when a portion of chromosome 21 becomes translocated to another chromosome before or after conception.

Question 28

What are some common distinctive facial features of those with Down's syndrome (neonates/adults)?

Answer 28

- Flattened face - Small head - Short neck - Protruding tongue - Upwards slanting eyes: palpebral fissures - Unusually shaped ears/small ears - Hypotonia.

Question 29

What are some other characteristic common features of those with Down's syndrome?

Answer 29

- Broad, short hands with only SINGLE crease in palm - Short fingers - Small hands and feet - Excessive flexibility - Tiny white spots on the iris of the eye: **brushfield's spots** - Short stature/height.

Question 30

What are the symptoms of Down's syndrome?

Answer 30

- Mild-moderate intellectual disability - Congenital heart disease - Haematological malignancies more common (acute lymphoblastic leukaemia - 10x higher) - Hypothyroidism - Gastrointestinal: constipation due to less nerves in colon - Infertility in men, reduced fertility in women Eye disorders: strabismus, cataracts, refractive errors - Hearing disorders: 38-78% DS patients due to infections/malformations.

Question 31

What is Edward's syndrome?

Answer 31

An example of autosomal aneuploidy (trisomy 18). 47,XX,+18.

Question 32

What are some symptoms of Edward's syndrome?

Answer 32

- Intrauterine growth retardation = slow growth before birth - - Low birth weight - - Heart defects - - Severe intellectual disability - - Weak cry & minimal sound response.

Question 33

What are some visible characteristics (common features) in Edward's syndrome?

Answer 33

- Unusually small head - Prominent back of head - Ears malformed and low-set - Small mouth & jaw +/- cleft lip palate - Hands clenched into fists - Clubfeet/rocker-bottom feet +/- webbed toes.

Question 34

What is Patau syndrome?

Answer 34

An example of an autosomal aneuploidy (trisomy 13). 44,XX,+13.

Question 35

What are the symptoms of Patau syndrome?

Answer 35

- Severe intellectual disability - - Congenital heart defects - - CNS abnormalities (brain and spinal cord) - Very small, poorly developed eyes = microphthalmia - - Low-set ears - - Extra fingers/toes 'polydactyly' - - Cleft-lip/cleft-palate - - Hypotonia.

Question 36

Why are humans more able to tolerate sex chromosome aneuploidy than autosomal chromosome aneuploidy?

Answer 36

This tolerance most likely relates to: 1) X-inactivation 2) Small number of genes on the Y chromosome.

Question 37

Give some examples of sex chromosome aneuploidy disorders.

Answer 37

- Turner syndrome 45, X - - Triple X syndrome 47, XXX - - Klinefelter syndrome 47,XXY - - XYY syndrome 47,XYY.

Question 38

What is x-chromosome inactivation?

Answer 38

A process when one of the two X chromosomes is randomly 'turned off' via transcriptional silencing. This is also called 'lyonization' - named after Mary F. Lyon.

Question 39

What is a Barr body?

Answer 39

An inactivated X chromosome in a cell with more than one X chromosome.

Question 40

What is Turner Syndrome?

Answer 40

Occurs in females when they only have one X chromosome. Sex chromosome aneuploidy 45,X karyotype.

Question 41

What are the symptoms of Turner syndrome?

Answer 41

1) Short stature 2) Retarded sexual development 3) Cardiovascular problems (bicuspid aortic valve, coarctation of aorta, elongation of aortic arch, hypertension) 4) Kidney defects (30-40%) 5) Hearing problems (>50% adults) 6) No mental retardation.

Question 42

What is triple X syndrome?

Answer 42

47, XXX karyotype. A syndrome with 3 X chromosomes which is sometimes not detected but can cause sterility and intellectual traits (mild).

Question 43

How many of the X chromosomes in triple X syndrome are inactivated?

Answer 43

Two of the three X chromosomes are inactivated, leaving one X chromosome active.

Question 44

What is the most common physical feature of triple X syndrome?

Answer 44

Being taller than average height.

Question 45

What is Klinefelter syndrome?

Answer 45

47, XXY karyotype. Most common physical feature: taller & less muscular body than average males and gynecomastia.

Question 46

What is XYY syndrome?

Answer 46

47, XYY karyotype. Most common feature: taller (~7cm taller than average), slightly lower IQ but normal intelligence.

Question 47

What is chromosomal translocation?

Answer 47

When part of one chromosome is mistakenly attached to another chromosome.

Question 48

What is a **Robertsonian translocation**?

Answer 48

A **chromosomal translocation mutation**: Breakage of **two acrocentric chromosomes (number 13, 14, 15, 21, 22)** at or close to their centromere, subsequent fusion of their long arms (q) to form one chromosome. Total chromosome number reduced to 45.

Question 49

What is the most common fusion in Robertsonian translocation?

Answer 49

The most common fusion is between chromosome 13 and 14.

Question 50

Are Robertsonian translocation carriers symptomatic?

Answer 50

No, often asymptomatic.

Question 51

Do Robertsonian translocation carriers produce balanced gametes?

Answer 51

No, Robertsonian translocation carriers produce unbalanced gametes which can lead to = monosomic or trisomic zygotes.

Question 52

What is the **Philadelphia chromosome translocation**?

Answer 52

Occurs in **chronic myeloid leukemia (CML)**. **Reciprocal translocation between chromosome 9 and 22** - causing a fusion gene (BCR-ABL) that **encodes for a fusion protein BCR-ABL that is oncogenic**.

Question 53

What is standard therapy for CML patients (Philadelphia chromosome translocation)?

Answer 53

BCR-ABL tyrosine kinase inhibitors (TKI) is first-line therapy for most CML patients.

Question 54

What are terminal and interstitial deletions of chromosomes?

Answer 54

Regions of chromosomes can become deleted internally (interstitially) or at the ends (terminally) by breakage. Such deletions will ALWAYS be unbalanced with an associated phenotype.

Question 55

What is an example of a condition caused by a deletion of the short arm of chromosome 17 (17p)?

Answer 55

Chronic Lymphocytic Leukaemia (CLL).

Question 56

What is an example of a cytogenic localization technique **(method for visualising chromosomes**)?

Answer 56

Fluorescence in situ hybridization (FISH).

Question 57

What is FISH?

Answer 57

Fluorescence in situ hybridization: produces a fluorescent signal (red) at sites of specific DNA sequences. Several PROBES (each corresponding to specific genomic segment) can be simultaneously analysed and ordered with respect to each other using multicolour FISH.

Question 58

Why is FISH useful?

Answer 58

FISH is useful because... 1) Locates specific DNA sequences using fluorescence 2) Diagnosis of genetic diseases 3) Gene mapping 4) Detects CRYPTIC or submicroscopic abnormalities in INTERPHASE NUCLEI.

Question 59

What are examples of conditions that can be visualised using FISH techniques?

Answer 59

1) Duplication of small portion of chromosome 17 = Charcot Marie Tooth syndrome 2) Philadelphia chromosome translocation = CML.

Question 60

State the karyotype of a child (female) born to Down's syndrome (trisomy 21).

Answer 60

47,XX,+21

Question 61

Describe what you would expect to see with a normal foetus' karyotype?

Answer 61

On a standard karyotype, you would expect to see pictures of pairs of chromosomes 1-22 and a pair of X chromosomes.

Question 62

What is the name of the phenomenon seen in this image of a dividing human cell in late anaphase/early telophase?

Answer 62

Anaphase lag = chromosomes are separated to opposite ends of cell, however, there are still a few chromosomes in the centre of the cell - which is unusual. The cell shows early signs of invagination and is about to divide into two daughter cells.

Question 63

What types of investigations could you conduct to find out more about an individual's chromosome abnormality?

Answer 63

1. Comparison of individual's karyotype with one of a healthy individual 2. Different staining (giemsa) of patient's karyotype to look at the banding patterns in detail 3. FISH experiments with probes for specific genes.

Question 64

Looking at the karyotype below - diagnose the patient's condition...

Answer 64

45, X = Turner syndrome.

Question 65

What condensed structures, visible with light microscopy, are inactivated X-chromosomes found within nucleus of the cell?

Answer 65

Barr bodies.

Question 66

State the two primary mechanisms in which a trisomy or monosomy can be produced with gametogenesis or the early mitotic divisions of the embryo...

Answer 66

1. Non-disjunction: failure of homologous chromosomes or sister chromatids to separate properly during cell division 2. Anaphase lag: a delayed moment during anaphase where one homologous chromosome in meiosis or one chromatid in mitosis fails to connect to the spindle apparatus, or is tardily drawn to its pole and fails to be included in the reforming nucleus.

Question 67

What are common reasons someone may be referred for genetic counselling?

Answer 67

1) Positive family history for specific inherited disease 2) Pregnant women of higher age (increased risk of chromosomal abnormality) 3) Post-natal counselling available for individuals with infants with a genetic disorder or couples with multiple miscarriages 4) People exposed to high risks for genetic mutation - chemical, physical, viral.

Question 68

Describe how a chromosomal abnormality can occur during oogenesis.

Answer 68

Anaphase lag leading to monosomy or trisomy in fertilised foetus. Non-disjunction leading to monosomy or trisomy in fertilised foetus. Robertsonian translocation leading to monosomy or trisomy. Deleting of genetic material while crossing over.

Question 69

What is the clinical term for this karyotype 47,XY,+13?

Answer 69

Patau syndrome.

Question 70

Multiplex in situ hybridization (M-FISH)

Answer 70

24-color karyotyping technique and method of choice for studying complex interchromosomal rearrangements.