Haematology: Introduction to Leukaemias

Question 1

What is leukaemia?

Answer 1

• A group of malignant disorders of haematopoietic stem cells characteristically associated with an increased number of white cells in bone marrow or/and peripheral blood

Question 2

Name the 3 types of haematopoietic lineage and state the type of blood cell/s each lineage produces

Answer 2

• Erythroid lineage - produces erythrocytes
• Lymphoid lineage - produces B and T lymphocytes
• Myeloid lineage - produces all other leukocytes, e.g. neuyrophils, macrophages etc.

Question 3

What are the 3 main cell types involved in haematopoiesis?

Answer 3

• Haematopoietic stem cells (HSCs)
• Progenitor cells
• Mature cells

Question 4

What are some basic characteristics of haematopoietic stem cells?

Answer 4

• Pluripotent - can give rise to cells of every blood lineage
• Self maintaining - a stem cell can divide to produce more stem cells

Question 5

What are some basic characteristics of progenitor cells?

Answer 5

• Can divide to produce many mature cells but can’t divide indefinitely
• Eventually differentiate and become mature cells

Question 6

There are 2 different types of progenitor cells, what are they?

Answer 6

• Undifferentiated (multipotent) progenitor cells
• Committed (unipotent) progenitor cells

Question 7

What differences are there in characteristics between the undifferentiated and committed progenitor cells?

Answer 7

• With the undifferentiated progenitor cells you can’t tell the difference between them morphologically because they don’t show the characteristics of mature cells.
• Committed prognitor cells are already committed as to what mature cells they’ll become and so are morphologically different
• Undifferentiated progenitor cells also have ability to produce more than one type of blood cell while committed progenitor cells can only produce one type

Question 8

Explain what is meant when it is said that leukaemia is a “clonal disease”

Answer 8

• This means that all the malignant cells derive from a single mutant stem cell

Question 9

What are some of the common symptoms of most types of leukaemia?

Answer 9

• Abnormal bruising (most common symptom)
• Repeating abnormal infection
• Sometimes anaemia

Question 10

Name of the techniques used to diganose which subtype of leukaemia a person has/what treatments can be used to combat it?

Answer 10

• Next generation sequencing - can construct molecular profile of cancerous cells
• Fluorescence in situ hybridisation (FISH) - used to detect chromosmal abnormalities
• Immunophenotyping
• Cytomorphology
• Flow cytometry

Question 11

What are some of the predisposing factors than can cause leukaemia?

Answer 11

• Genetic factors
• Environmental factors
• Lifestyle-related risk factors
• Uncertain/controversial factors

Question 12

Is Leukaemia a hereditary disorder?

Answer 12

• Leukaemia usually not hereditary
• There are some cases of Chronic Lymphocytic Leukaemia (CLL) where this is the case

Question 13

There are a couple of rare genetic dseases that may predispose to leukaemia. What are these genetic disorders?

Answer 13

• Fanconi’s anaemia
• Down’s syndrome

Question 14

What are some specific genetic risk factors that can lead to the development of leukaemia?

Answer 14

• Gene mutations resulting in activation of oncogenes and/or inactivation of tumour suppressor genes
  
  • Genes mutated can be common to other cancers, e.g. TP53, or specific to Leukaemia
• Chromosome aberrations:
  
  • Translocations (e.g. BCR-ABL in CML).
  • Numerical disorders (e.g. trisomy 21-Downs syndrome)
• Inherited immune system problems (e.g. Ataxia-telangiectasia)

Question 15

What are some specific environmental risk factors that can lead to the development of leukaemia?

Answer 15

• Radiation exposure
  
  • Acute radiation accidents
• Exposure to chemicals and chemoterapy
  • ​Cancer chemotherapy with alkylating agents (e.g. Busulphan)
  • Industrial exposure to benzene
• Immune system suppression
  
  • ​e.g. After organ transplant

Question 16

What are some specific lifestyle-related risk factors that can lead to the development of leukaemia?

Answer 16

• Smoking
• Drinking
• Excessive exposure to sun
• Being overweight

Question 17

What are some of the uncertain/controversial factors that may cause Leukaemia?

Answer 17

• Infections in early life
• Parent’s smoking history
• Foetal exposure to hormones

Question 18

What are the different types of leukaemia?

Answer 18

• Acute Lymphoid Leukaemia (ALL)
• Acute Myeloid Leukaemia (AML)
• Chronic Lymphoid Leukaemia (CLL)
• Chronic Myeloid Leukaemia (CML)

Question 19

What is acute leukaemia?

Answer 19

• Undifferentiated leukaemia characterised by uncontrolled clonal accumulation of immature white blood cells (multipotent progenitors)

Question 20

What specific cells are affected in acute leukaemia?

Answer 20

• Myoblasts
• Lymphoblasts

Question 21

What is chronic Leukaemia?

Answer 21

• Differentiated leukaemia characterised by uncontrolled clonal accumulation of mature white blood cells (unipotent progenitors)

Question 22

What are some general differences between the characteristics of acute and chronic Leukaemia?

Answer 22

• Acute leukaemia occurs mainly in children while chronic leukaemia occurs in the middleaged/elderly
• The onset of acute leukaemia is sudden while the onset of chronic leukaemia is insidious (gradual)
• Acute leukaemia usually lasts weeks, months while chronic leukaemia usually lasts for years
• White blood cell count in acute leukaemia is variable while in chronic leukaemia

Question 23

Out of all acute leukaemia cases what percentage is accounted for by AML and what percentage is accounted for by ALL?

Answer 23

• Acute myeloid leukaemia (AML) - 20%
• Acute lymphoid leukaemia (ACL) - 75%

Question 24

What is the main charateristic of acute leukaemia?

Answer 24

• A large number of lymphoblasts or myeloid blasts being present within the blood or bone marrow

Question 25

Explain why there’s a large number of blast cells within the blood and bone marrow in acute leukaemia

Answer 25

• In acute leukaemia blast cells proliferate to form a blast cell pool
• However, the blast cells get arrested within the pool so are unable to form mature cells
• Because mature cells are unable to form, the blast cell pool becomes extremely large

Question 26

What are some of the main symptoms of acute leukaemia?

Answer 26

• Thrombocytopenia (low platelet count) - this causes purpura (bruising), epistaxis (nosebleed) and bleeding from gums.
• Neutropenia (low neutrophil count) - this causes recurrent infections and fever.
• Anaemia - this causes weakness, tiredness, shortness of breath.

Question 27

How can you diagnose acute leukaemia?

Answer 27

• Peripheral blood test (PB) is used to detect presence of blast cells or cytopenia
  
  • If myoblasts/lymphoblasts > 30% then acute leukaemia is suspected
• Bone marrow test/biopsy (BM) can be used to compare results with peripheral blood test
  
  • Bone marrow taken from pelvic bone
• Lumbar puncture is used to determine if the leukemia has spread to the cerebral spinal fluid (CSF

Question 28

What are some of the characteristics of acute lymphoid leukaemia?

Answer 28

• Prevalence - Most common childhood cancer (not very prevalent overall)
• Origin - cancer of immature lymphoblasts
• Classification - B and T cell leukaemia
• Treatment - Chemoterapy (long term side effcets are rare)
• Outcome of treatment - 5 year event-free survival rate of 87%, if patients do relapse then they’ll undergo a second round of chemotherapy or a bone marrow transplant

Question 29

How does acute lymphoid leukaemia in adults compare with acute lymphoid leukaemia in children?

Answer 29

• For adult ALL there’s a poorer prognosis because disease presents different cell of origin and different oncogene mutations so the treatment of it has to be diffferent

Question 30

What are some of the characteristics of acute myeloid leukaemia?

Answer 30

• Prevalence - Very rare (70 children aged 16 and under diagnosed every year in UK)
• Origin - Cancer of immature myeloblast cells
• Classification - Based on FAB system (French-American-British) M0-M7
• Treatment - Chemotherapy, immunotherapy (using monoclonal antibodies) and/or allogenic bone marrow transplant
• Outcome - 5 year event-free survival rate of 50-60%

Question 31

What are some characteristics of chronic lymphocytic leukaemia?

Answer 31

• Prevalence - 3,800 new cases diagnosed in UK every year, avergae diagnosis age is 70
• Origin - Cancer of mature (clonal) lymphocytes, large amount present in blood/bone marrow
• Symptoms - Recurrent infections due to neutropenia, and suppression of normal lymphocyte function, anaemia, thrombocytopenia, lymph node enlargement and hepatosplenomegaly.
• Treatment - Regular chemotherapy
• Outcome - 5 year event-free survival rate of 83%, many patients survive more than 12 years

Question 32

What are some characteristics of chronic myeloid/granulocytic leukaemia?

Answer 32

• Prevalence - 742 new cases diagnosed in UK each year, average diagnosis age is 85-89
• Origin - Cancer of mature myeloid white blood cells so large numbers of them present in blood/bone marrow
• Symptoms - Often asymptomatic
• Treatment - Targeted therapy - imatinib
• Outcome - 5 year event-free survival (EFS) of 90%. Eventually progresses to accelerated phase and then blast crisis.which is when an allogeneic bone marrow transplant is needed

Question 33

95% of chronic myeloid leukaemia patients have the philadelphia chromosome. What is the philadelphia chromosome?

Answer 33

• The short and defective chromosome formed as a result of the chromosomal translocation between the long arm of chromosome 9, which contains the ABL gene and the long arm of chromosome 22, which contains the BCR gene.

Question 34

What are the normal functions of both the ABL gene and BCR gene?

Answer 34

• ABL gene - encodes a protein tyrosine kinase whose activity is tightly regulated (auto-inhibition)
• BCR gene - encodes a protein that needs to be continuously active

Question 35

What occurs as a result of the chromosomal translocation that forms the philadelphia chromosome?

Answer 35

• The BCR and ABL genes fuse to form the BCR-ABL 1 fusion oncgene
• This results in the promoter for the BCR gene regulating the ABL gene as well
• The BCR-ABL 1 fusion gene produces the BCR-ABL protein which has constitutive (unregulated) protein tyrosine kinase activity

Question 36

What are the effects of the unregulated protein tyrosine kinase activity of the BCR-ABL protein?

Answer 36

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

Question 37

How can you use the prevalence of the philadelphia choromosome to diagnose chronic myeloid leukaemia?

Answer 37

• You can use a blood sample from a patient to detect the chromosomal translocation that produces the philadelphia chromosome

Question 38

Explain how fluoresence in situ hybridisation (FISH) is used to detect the presence of the philadelphia chromosome (BCR-ABL gene fusion)?

Answer 38

• Fluorescent probes are used that’ll bind to either the BCR gene or the ABL gene
• If you see a combination of the 2 colours used to fluoresecently label the probes then it confirms the presence of BCR-ABL gene fusion

Question 39

Explain the mechanism of action of the targeted therapy imatinib

Answer 39

• imatinib is a smll molecule inhibitor that inhibits the BCR-ABL oncoprotein
• It does this by preventing ATP from binding to the BCR-ABL oncoprotein
• This results in the chronic myeloid leukaemia cells undergoing apoptosis

Question 40

What are the advantages and disadvantages of imatinib target therapy compared with other cancer treatments?

Answer 40

• Advantage - remission induced in more patients, with greater durability and fewer side effects
• Disadvantage - some patients become drug resistant

Question 41

What other types of cancer can imatinib targeted therapy be used to treat?

Answer 41

• Gastrointestinal tumours
• Small cell lung cancer