intro to leukaemia

Question 1

What is leukaemia?

Answer 1

Malignant disorders of haemtopoietic stem cells characteristically associated with increased number of white cells in the bone marrow and/or peipheral blood.

Question 2

What three lineages are all blood cells divided into?

Answer 2

Red blood cell/ erythrocytes - oxygen carrying cells, released into blood

Lymphocytes, derived from common lymphoid progenitors - B cells, T cells and natural killer cells

Cells of myeloid lineage – granulocytes, karyocytes, macrophages. Derived from common myeloid progenitors, involved in innate immune system and blood clotting

Question 3

What two types of progenitor cells are there?

Answer 3

Undifferentiated progenitor cells (multipotent): can’t tell difference between them morphologically, don’t show characteristics of mature cells

• give rise to two different lineages

Progenitor cells - committed (unipotentt): committed to what they’ll become

• can only give rise to one type of blood cell

Question 4

What can drive progenitors or HSCs to pre-leukemic stage?

Answer 4

Oncogenic transcription factors.

Secondary mutation required to induce full blown leukaemia through increased survival and proliferation.

malignant cells derived from single mutant stem cell.

Question 5

What is the incidence of leukaemia?

Answer 5

Related to AIDS, highest incidence in older people.

in UK 2013-2015, 4/10 new cases were in people 75+

rates higher in males than females in older age groups

Question 6

What is the presentation of leukaemia?

Answer 6

Varies between types.

Symptoms:

Abnormal bruising commonest

Repeating abnormal infection due to absence of normal white cells and immune power to fight disease

Sometimes anaemia due to reduced production of RBC – symptoms like fatigue, shortness of breath

Question 7

How is leukaemia diagnosed?

Answer 7

Extract biopsy from bone marrow,

• Blast mature cells
• Light coloured RBC

Peripheral blood blasts test (PB) to check for presence of blasts and cytopenia. >30% blasts are suspected of acute leukaemia

Bone marrow test/biopsy (BM): taken from pelvic bone and results compared with PB

Lumbar puncture: to determine if the leukaemia has spread to cerebral spinal fluid

Question 8

After estabilishing leukaemia it must be characterised

What is used to characterise leukaemia?

Answer 8

Cell surface markers

Cytomorphology of cells

Using next gen seq to find mutations that may have caused leukaemia

Flow cytometry

Immunophenotyping

Fluorescence in situ hybridisation

Methods done to try to detect different cellular markers and detect mutations which are characteristic

Question 9

What are the genetic risk factors of leukaemia?

Answer 9

Gene mutations involving oncogenes (Activation) or/and tumour suppressors (inactivation)

• Involving genes common to other malignancies (tp53- Li-Fraumeni syndrome, NF1-Neurofibromatosis) or specific to leukaemia

Chromosome aberrations

• Translocations (e.g BCR-ABL in CML) give rise to new chromosome, triggered factor of 95% of chronic myeloid leukaemia’s
• All leukaemia’s can be associated with numerical disorders (e.g trisomy 21-Down syndrome)

Inherited immune system problems (e.g Ataxia-telangiectasia, Wiskott-Aldrich syndrome)

Question 10

What are the environmental risk factors of leukaemia?

Answer 10

Radiation exposure

• Acute radiation accidents
• Atomic bomb survivors

Exposure to chemicals and chemotherapy

• Cancer chemotherapy with alkylating agents e.g busulphan
• Industrial exposure to benzene

Immune system suppression

• e.g after organ transplant

Question 11

What are the lifestyle releated risk factors of leukamia?

Answer 11

Smoking

Drinking

Excessive exposure to sun

Overweight

other risk factors:

Exposure to electromagnetic fields

infections early in life

nuclae power stations

foetal exposure to hormones

Question 12

Classification of leukaemia

What is acute leukaemia?

Answer 12

Rapid onset and short but severe course

Undifferentiated leukaemia, characterised by uncontrolled clonal and accumulation of immature white blood cells (blast)

Bone marrow and blood sample has high number of blast cells.

Question 13

What is chronic leukaemia?

Answer 13

Persisting over a long time.

Differentiated leukaemia.

Characterised by uncontrolled clonal and accumulation of mature white blood cells (-cyte)

Affects cells that have already differentiated, unipotent.

Question 14

What is the difference between acute and chronic leukaemia?

Answer 14

Age: children in acute, elderly in chronic

Onset: sudden, insidious

Duration: weeks to months, years

WBC: variable, high

Question 15

What are the two types of acute leukaemia?

Answer 15

Acute lymphoblastic leukaemia (ALL)

Acute myeloblastic leukaemia (AML)

• commonest type of cancer in childood
• 31% of total cancers in children, 75% cases ALL, 20% AML
• characterised by large numbers of lymphoblasts or myeloid blasts in bm and blood
• arresst of mature process, breaks balance between proliferation and cell death

Question 16

What are the symptoms of acute leukaemia?

Answer 16

Due to BM suppression:

Thrombocytopenia (low platelets): purpura (bruising), epistaxis (nosebleed), bleeding from gums. Are the most common symptoms.

Neutropenia (low neutrophils): recurrent infections and fever

Anaemia: lassitude, weakness, tiredness, shortness of breath

Question 17

What is the origin of chronic lymphocytic leukaemia?

What are the symptoms?

What is treatment?

Answer 17

1. Large numbers of clonal lymphocytes in BM and blood.

2.

Recurrent infections due to neutropenia

Suppression of normal lymphocyte function

Anaemia

Thrombocytopenia

Lymph node enlargement

Hepatosplenomegaly

3.

Regularly chemotherapy to reduce cell numbers

Question 18

What is the origin of Chronic myeloid/granulocytic leukaemia?

Symptoms

Treatment

Answer 18

1. Large number of mature myeloid white blood cells
2. Asymptomatic, discovered through blood tests - high white blood cell count (neutrophilia) and philadelphia chromosome
3. targeted therapy , imatinib.

Question 19

What is BCR?

Answer 19

Encodes a protein that needs to be continously active.

Its promoter is strong and active, promotes permanent transcription of the gene.

Question 20

What is ABL?

Answer 20

Encodes a protein tyrosine kinase whose activity is tightly regulated (auto-inhibition)

A proto-oncogene.

Tyrosine kinase needs ATP molecules in order to phosphorylate its substrates.

Question 21

How does the BCR-ABL oncogene come about?

Answer 21

Translocation brings ABL gene under transcriptional regulation of BCR promoter.

Promoter controls transcription of ABL gene

therefore BCR-ABL protein has constitutive (unregulated) protein tyrosine kinase activity

Question 22

What does unregulated BCR-ABL activity cause?

Answer 22

Tyrosine kinase activity causes:

• Proliferation of progenitor cells in the absence of growth factors
• Decreased apoptosis
• Decreased adhesion to bone marrow stroma

Triggers leukaemia

Question 23

How is FISH used when diagnosising chronic myeloid leukaemia?

Answer 23

95% of CML have detectable Ph’ chromosome

FISH checks for Ph’ chromosome

Use of two probes, red = ABL gene, green = BCR gene

Ph’ chromosome, two chromosomes are fused, see both colours

also used in detection of minimal residual disease

Question 24

How does Imatinib work?

Answer 24

Small molecule inhibitor, targets ABL-CML treatment

Inhibits continuously active tyrosine kinase activity of fusion protein

ABL gene contributes with tyrosine kianse activity, needs ATP to phosphorylate substrates to make it active

Imatinib competes with ATP, binds to BCR-ABL, preventing ATP from binding, can’t phosphorylate tyrosine

Oncogene not able to activate downstreamt pathways