Leukaemia

Question 1

describe the epidemiology of the cancer of blood/”white blood”

Answer 1

 5% of all cancers are cancers of the blood.

 Blood cancers are the most common cancers in men and women aged 15-24 and the main cause of death in 1-34.

Question 2

what is the essential cause of leukaemia?

Answer 2

Disease of the bone marrow:
a series of mutations in a single lymphoid or myeloid stem cell (progeny of a pluripotent haematopoietic stem cells)

this leads to the overspill of abnormal cells into circulation

multiple mutations is a requirement

Question 3

what are the progeny of myeloid stem cells?

Answer 3

1) erythroblasts–>erythroid
2) megakaryoblasts
3) myeloblasts–>granulocytic cells
4) monoblasts–>monocytes

Question 4

what are the progeny of lymphoid stem cells?

Answer 4

Pre B lymphocyte–> B lineage cancer are 75%

Pre T lymphocyte–> T lineage cancer are 25%

Question 5

how does leukaemia differ from typical cancers?

Answer 5

usually no solid tumours involved

• the cells affected in this cancer, normally move constantly around circulation and in and out of tissues
  i. e. behave differently as they don’t have a permeant location like a lot of cancers

abnormal cells start to take over bone marrow cells and circuit freely (overflow) into the blood

Question 6

what do normal haematopoietic stem cells do?

Answer 6

circulate in the blood and both the stem cells and the cells derived from them can enter tissues, and normal lymphoid stem cells recirculate between tissues and blood.

Question 7

what is the issue with describing leukaemia like standard cancers due to the different behaviour of the cells involved? how are the cancers refer?

Answer 7

invasion/metastasis cannot be applied normally
- these cells in leukaemia are meant to be mobile

benign–> chronic
malignant–> acute (aggressive and leads to quick death if left untreated)

Question 8

how can leukaemias be classified?

Answer 8

1) chronic or acute
2) myeloid or lymphoid
3) subclass
- lymphoid: B or T lineage
- myeloid: granulocytic, monocytic, erythroid or megakaryocytic

Question 9

what are the main classes of leukaemia?

Answer 9

o ALL 
– Acute Lymphoblastic Leukaemia.
o AML
 – Acute Myeloid Leukaemia.
o CLL 
– Chronic Lymphocytic Leukaemia.
o CML 
– Chronic Myeloid Leukaemia.

Question 10

what are the important influences that contribute to the pathogenesis of leukaemia?

Answer 10

a series of mutations in a single stem cell:
o Proto-oncogene mutations.
o Novel gene creation 
– e.g. a chimeric or fusion gene.
o Dysregulation of a gene 
– when translocation brings the gene under the influence of a promotor or enhancer of another gene.
o TSG loss of function 
– deletion or mutation of both copies.

in those with tendency to have chromosomal breaks

Question 11

what are the inherited causes contributing to leukaemogenesis?

Answer 11

o Down’s syndrome.
o Chromosomal fragility syndromes.
o Defects in DNA repair.
o Inherited defects of TSGs.

Question 12

what are the environmental causes of mutation?

Answer 12

• Irradiation
• Anti-cancer drugs.
• Cigarette smoking.
• Chemicals – e.g. benzene.

Question 13

what happens to cells in ACUTE leukaemias?
what is the cause often?
what do mutations usually affect?

Answer 13

• Cell continue to proliferate but they do not mature
• Often is due to the product of an oncogene affecting proteins
• mutations usually affect transcription factors that affect multiple genes in a dominant manner
• affect the ability of the cell to mature

remember that oncogenes tend to cause non-solid tumours

Question 14

what is the consequence of cells not maturing but proliferating in AML?

Answer 14

 Build-up of immature cells in BM and this overflows into the blood
 Failure of production of normal functioning end cells such as neutrophils, monocytes, platelets, etc which are replaced by the leukaemic cells

Question 15

how does CML differ to AML?

Answer 15

In CML responsible mutations usually affect genes encoding proteins involved in the signalling pathways from receptors (membrane receptor or cytoplasmic proteins) cml

In AML its transcription factors that are affected (further downstream to signalling pathway)

Question 16

what happens to cells in CML?

Answer 16

Cell kinetics & function are not as seriously affected as in AML.

• however the cell becomes independent of external signals i.e. doesnt need GF anymore,
• there are alterations in the interaction with stroma (signalling affected)
• there is reduced apoptosis so that cells survive longer and the leukaemic clone expands progressively
• maturation however still occurs, in CML they are functional

key point: signalling defect and reduced apoptosis

Question 17

what is the essential difference between AML and CML in terms of end product?

Answer 17

AML = failure of production of cells, reduced end product

CML = failure to apoptose, increased production of cells

Question 18

what is the essential difference between ALL and CLL?

Answer 18

• Acute lymphoblastic leukaemia (ALL): Increase in very immature cells (lymphoblasts) with a failure of these to develop to mature B/T cells.
• Chronic lymphoid leukaemia (CLL): Leukaemic cells are mature but abnormal.

similar to myeloid leukaemias

Question 19

what does the accumulation of abnormal cells lead to in leukaemia?

Answer 19

• Leucocytosis
• bone pain (acute - in children especially)
• hepatomegaly
• splenomegaly (megalies due to free movement of these cells)
• lymphadenopathy (if lymphoid)
• thymus enlargement (if T lymphoid)
• skin infiltration

Question 20

what are the metabolic effects of leukaemia cell proliferation?

Answer 20

• Hyperuricemia and renal failure
• weight loss (metabolism redirection elsewhere)
• low-grade pyrexia
• hidrosis (sweating)

Question 21

in which group of people is ALL most prevalent?

Answer 21

children

highest incidence at age 4

Question 22

what does B-cell lineage ALL result from?

Answer 22

delayed exposure to common pathogen
(conversely, early exposure to a pathogen protects)

uncommon causes: (i) irradiation or exposure to chemicals in utero and (ii) mutagenic drugs.

Question 23

what factors affect exposure to common pathogens which then affects the chance of developing B cell lineage ALL?

Answer 23

factors such as family size, new towns, socio-economic class, early social interactions and variations between countries affect the exposure

Question 24

what is lost in CLL?

Answer 24

normal immune function

Question 25

what can some leukaemias in children result from?

Answer 25

``` o Irradiation in utero. o In utero exposure to certain chemicals – Baygon, Dipyrone. o EBV. o Rarely – exposure to a mutagenic drug. ```

Question 26

what are the two main cellular changes that occur in ALL?

Answer 26

accumulation of abnormal cells | crowding out of normal cells

Question 27

what are the clinical features of ALL as a result of the accumulation of abnormal cells (direct effects due to proliferation)?

Answer 27

``` o Bone pain. o Hepatomegaly o Splenomegaly. o Lymphadenopathy. o Thymic enlargement. o Testicular enlargement (due to lymphoblastic infiltration) ```

Question 28

what are the clinical features of ALL as a result of crowding out of normal cells (indirect effects due to replacement)?

Answer 28

o Anaemia – fatigue, lethargy, pallor, dyspnoea, SOB o Neutropenia – fever and features of infection e.g. cough o Thrombocytopenia – bruising, petechiae, bleeding.

Question 29

what are the haematological features of ALL?

Answer 29

o Leucocytosis with lymphoblasts in the blood. o Anaemia (normocytic, normochromic). o Neutropenia. o Thrombocytopenia (low platelets) o Lymphoblasts replacing normal bone marrow cells

Question 30

what are the investigations that can be done in ALL?

Answer 30

o FBC with liver and renal function tests. o Bone marrow aspirate. o Cytogenic/molecular analysis. o Chest x-ray. o immunophenotyping (to confirm T or B lymphoid cells),

Question 31

what is done in cytogenic analysis (on BM aspirate for example)?

Answer 31

Immunophenotyping – find the lineage of the cells. methods assess the prognosis of ALL so treatment can be determined depending on the genetic mechanism involved: • Hyperdiploidy (many extra chromosomes) -->good prognosis. • T(4; 11) --> poor prognosis.

Question 32

what is the leukaemogenic mechanism in ALL?

Answer 32

o Formation of a fusion gene – ETV6-RUNX1. o Dysregulation of a proto-oncogene – TCL3 and TCRA. o Point mutation in a proto-oncogene. Only one of the fusion genes created in a reciprocal translocation will contribute to leukaemogenesis

Question 33

how can the fusion gene ETV6-RUNX1 be detected using cytogenic and molecular analysis?

Answer 33

FISH o Green probe for ETV6 and red for RUNX1. o Fused colours give yellow.

Question 34

give an example of where dysregulation occurs?

Answer 34

(10; 14) (q24; q11) – the TCL3 gene is dysregulated by proximity to the TCRA gene.

Question 35

what are the 3 types of treatment involved in ALL?

Answer 35

1) supportive: blood products (red cells, platelets) to correct the effects of bone marrow failure 2) systemic chemotherapy (widespread disease): to kill off the cells of the leukaemic clone and permit normal cells to regenerate 3) intrathecal chemotherapy: to destroy small numbers of leukaemic cells in the cerebrospinal fluid in poor prognosis cases, bone marrow (or other haemopoietic stem cell) transplantation may be needed.

Question 36

what is involved in supportive treatment?

Answer 36

replace: - red cells (anaemia) - platelets (thrombocytopenia) - antibodies and Antibiotics (infection due to neutropenia) to address the effects of leukaemia cells replacing normal cells

Question 37

how is intrathecal chemotherapy done?

Answer 37

Lumbar puncture done to inject chemotherapy into CSF instead a high dose of drug capable of crossing the BBB can be given

Question 38

why must treatment be systemic in most cases of leukaemia?

Answer 38

the disease becomes widespread very early

Question 39

describe the survival rates in ALL treatment

Answer 39

 Childhood ALL survival rates have been increasing gradually (75% can be cured)  Overall survival has been gradually been getting better: Approx. 10-year survival was 10% in 60s, now it is 95%.  Event free survival shows a similar pattern -5%.

Question 40

Leukaemia is not often a solid tumour... what is it ?

Answer 40

replacement of normal bone marrow cells with leukaemia cells

Question 41

how common in leukaemia?

Answer 41

most common cancer in men and women aged 15-24 (young) main cancer to cause death in those aged 1-34

Question 42

how does chronic leukaemia behave?

Answer 42

they behave in a "benign" way not aggressive/invasive you can't call it benign as there is no solid tumour

Question 43

how does acute leukaemia behave?

Answer 43

they have in a "malignant" way aggressive/invasive you can't call it malignant as there is no solid tumour

Question 44

what is the precursor to granulocytes, monocytes, erythroid and megakaryocytes?

Answer 44

myeloid

Question 45

why is acute lymphoblastic leukaemia (ALL) "lymphoblastic"?

Answer 45

the lymphoblasts can't mature into B and T lymphocytes

Question 46

what occurs in acute myeloid leukaemia?

Answer 46

- cells proliferate but don't mature - this means only few end cells exist end cells= neutrophils, RBCs etc - usually a mutation of a transcription factor affecting multiple genes

Question 47

what occurs in chronic myeloid leukaemia?

Answer 47

- opposite to AML as there are TOO many end cells - this is due to reduced apoptosis - cells have become independent of external signals - mutation of a gene involved in signalling pathway eg. membrane receptor

Question 48

what sort of mutation leads to AML?

Answer 48

mutation of a transcription factor affecting many genes

Question 49

what sort of mutation leads to CML?

Answer 49

mutation of gene involved in signalling pathway e.g. membrane receptor or cytoplasmic protein explains why apoptosis is reduced

Question 50

level of mature cells in AML

Answer 50

low

Question 51

level of mature cells in CML

Answer 51

high

Question 52

describe the cell is CLL?

Answer 52

they are increased mature B and T cells but abnormal

Question 53

which genetic features provide a good prognosis for ALL?

Answer 53

1) Hyperdiploidy | 2) t(12;21)

Question 54

what is hyperdiploidy?

Answer 54

extra copies of multiple chromosomes provides a good prognosis

Question 55

why must be FISH uses to look for a t(12;21)?

Answer 55

they resultant chromosome does not look any different t(12:21) produces a good prognosis for ALL trisomy 4 has the best good prognosis too

Question 56

what genetic features leads to a poor prognosis of ALL?

Answer 56

t(4;11)

Question 57

what physiological effects i.e. clinical features does crowding out normal cells in ALL have?

Answer 57

These are the effects of replacing normal cells with leukaemia cells: - fatigue, lethargy, pallor, breathlessness [anaemia] - fever, infection symptoms [neutropenia] - bruising, petechiae, bleeding [thrombocytopenia]

Question 58

what 2 things cause the signs and symptoms of leukaemia?

Answer 58

(i) proliferation of abnormal cells: e. g. bone pain, hepatomegaly, splenomegaly and lymphadenopathy (the latter mainly in lymphoid leukaemias). (ii) loss of function of normal tissues as a result of replacement by leukaemic cells: e. g. loss of bone marrow function leading to anaemia, thrombocytopenia, neutropenia.

Question 59

difference in CML and CLL?

Answer 59

CML produces functional end cells | CLL produces useless end cells (which then replace normal cell)

Question 60

what oncogenic events gives rise to the leukaemic clone in ALL?

Answer 60

(i) formation of a fusion gene (ii) juxtaposition to the promoter of a different gene (iii) dysregulation of a gene by juxtaposition to enhancers of T-cell receptor genes. net result is that a clone of cells continues to proliferate but cells do not mature or die. The clone thus expands progressively, replacing normal cells.

Question 61

what are the effects of leukaemic clone expansion in ALL?

Answer 61

(i) The direct effects of the proliferation of the leukaemic cells: (lymphadenopathy, hepatomegaly, splenomegaly, thymic enlargement (T-lineage ALL), bone pain, renal enlargement, testicular enlargement, cranial nerve palsies (meningeal infiltration), hyperuricaemia. (ii) The indirect effect of leukaemic cell proliferation: leads to replacement of normal bone marrow cells by leukaemic cells (causing anaemia, thrombocytopenia, neutropenia).

Question 62

what is thymus enlargement a sign of?

Answer 62

T cell lineage ALL