Intro and Pathology of Leukemia

Question 1

Leukemia vs. lymphoma

Answer 1

Leukemias are malignancies that typically involve marrow and (usually) blood

Lymphomas are malignancies that typically form discrete masses in tissue, often lymph nodes (‘oma’)

This classification refers to the typical form of a given disease; you may exceptionally have something classified as a leukemia that spares the marrow and forms a mass, or a lymphoma that involves the marrow and blood extensively.
Some diseases can fit fairly well into either category

Question 2

Myeloperoxidase (MPO)

Answer 2

Stains granules in myeloid cells

• myeloblasts are usually characterized by positive cytoplasmic staining for MPO
• crystal aggregate of MPO may be seen as Auer rods

Question 3

Leukocyte common antigen

Answer 3

CD45 –> found on vast majority of leukocytes

Question 4

B cell immunostains

Answer 4

Early = TdT, CD10

Early + late = CD19 + CD20

Late = CD38

Plasma cell = CD138

Question 5

T cell immunostains

Answer 5

Early = TdT, CD1, CD2, CD5, CD7

Late = CD3, CD4, CD8

Question 6

Flow cytometry

Answer 6

Cells are labeled while in a fluid medium, and passed through an automated detector one cell at a time
May be sorted by more than one parameter simultaneously
Immunostains often used
Other parameters also usable (e.g., cell size)
Extremely useful for classification of tumors and determination of prognostic features
Requires viable cells

Question 7

Cytogenetics

• G banding
• FISH

Answer 7

G-banding = Chromosomes separated during metaphase

• Stained with Giemsa (hence, G-band)
• Each chromosome has its own typical pattern

FISH (Fluorescence In-Situ Hybridization) = Probes directed at specific sequences on chromosomes

Question 8

Risk factors/etiologies of leukemias/lymphomas

Answer 8

Chromosomal anomalies

• Nonrandom mutations
• Predominantly translocations
• May be acquired during receptor gene rearrangement
• These are often specific or characteristic for a disease or group of diseases

Heritable conditions

• Genetic instability (e.g., Fanconi’s, Bloom)
• Down Syndrome
• NF1

Viruses

Inflammatory conditions –> infectious/autoimmune

Iatrogenic –> radiation/chemo

Smoking

Question 9

Major disease groups

Answer 9

Myeloid

• Acute myeloid leukemia (AML)
• Myeloproliferative (including CML)
• Myelodysplastic syndromes

Lymphoid

• ALL
• CLL

Question 10

Myeloid neoplasms

Answer 10

• Derived from granulocyte precursors
• Primarily involve marrow –> may involve other hematopoietic organs

1. Acute myeloid leukemias
2. Chronic myeloid leukemias (may progress to AML)

Question 11

AML

Answer 11

Neoplastic accumulation of immature myeloid cells in the bone marrow
- at least 20% blasts in marrow or blood

Types of blasts

1. Myeloblast = granulocyte precursors
   - –> characterized by positive cytoplasmic staining for MPO
   - –> crystal aggregates of MPO may be seen as Auer rods
2. Monoblast = monocyte/macrophage precursor
3. Blasts with megakaryocytic differentiation
   - –> often with marrow fibrosis
4. Blasts with erythroid differentiation

Question 12

Classification of AML

Answer 12

Subclassified based on cytogenetic abnormalities, lineage of myeloblasts and surface markers

4 categories:

1. AML with genetic aberrations
2. AML with myelodysplastic like features
3. AML that is therapy related –> follow alkylation therapy, radiation therapy and topoisomeras inhibitor therapy; very poor outcomes
4. AML, not otherwise specified

Question 13

Acute promyelocytic leukemia (APL)

Answer 13

Characterized by t(15:17)(q22;11-12) = RAR/PML –> involves translocation of the retinoic acid receptor (RAR) on chromosome 17 to chromosome 15

• RAR disruption blocks maturation and promyelocytes accumulate
• abnormal promyelocytes contain numerous granules that increase the risk for DIC
• treatment with all trans retinoic acid (ATRA = a vit A derivative) –> binds the altered receptor and causes the blasts to mature

Morphology:

• M3 - promyelocytes
• large, often bilobed nuclei
• azurophilic cytoplasmic granules
• auer rods –> not totally specific

Question 14

Chronic Myeloid Leukemia (CML)

Answer 14

Neoplastic proliferation of mature myeloid cells, especially granulocytes and their precursors

• form of myeloproliferative disorder
• basophils are characteristically increased

characterized by t(9;22) = philadelphia chromosome –> generates a BCR-ABL fusion protein with increased TK activity

• also inhibits DNA repair –> leads to decreased genetic stability
• first line tx = imatinib –> blocks TK activity

Question 15

CML morphology

Answer 15

Hypercellular marrow with overgrowth of maturing granulocytes

• includes elevated eosinophils and basophils
• megakaryocytes are usually increased but dysplastic
• erythroids usually normal/decreased
• “sea-blue” histiocytes

Peripheral blood with increased myeloid cells at varying degrees of maturation
- less than 10% blasts

Splenomegaly is common

Question 16

CML progression

Answer 16

Typically a latent period (even without therapy, may last several years)

~50% enter accelerated phase with 10-19% blasts
(also other criteria)
- Worsening anemia/thrombocytopenia
- Accumulating cytogenetic abnormalities
- Eventually enters blast crisis

~50% enter blast crisis directly

• Resembles acute leukemia, but will have persistent BCR-ABL
• > 20% blasts &/or large clusters of blasts in marrow &/or solid focus of blasts outside of marrow (aka chloroma)

Question 17

Lymphoid leukemias

Answer 17

• Derived from lymphoid precursors
• May often behave more like a lymphoma
• Terminology is ‘leukemia/lymphoma’
• May be acute or chronic (ALL or CLL)

Question 18

Acute lymphoblastic leukemia (ALL)

Answer 18

Neoplastic accumulation of lymphoblasts in the bone marrow (>20%)

• Majority (~85%) are B-ALL
• ALL is most common cancer of children, and most ALL cases occur in children
• Associated with Down syndrome, usually arises after 5 years of age
• B- and T-ALL is morphologically similar

Question 19

ALL morphology

Answer 19

B-ALL: usually leukemic presentation
- Lymphoblasts filling the marrow

T-ALL: usually lymphomatous presentation
- Mediastinal mass (+/- lymphadenopathy, splenomegaly)

Large nuclei, scant cytoplasm (high N:C ratio)

High mitotic rate
- High apoptotic rate  ‘starry sky’

Question 20

ALL diagnosis

Answer 20

Definite diagnosis depends on additional testing

• differential = ALL vs. AML
• then B-ALL vs. T-ALL

Terminal deoxynucleotidyl transferase (TdT) characterizes it as ALL

B cell vs. T cell markers subclassify

• B-ALL —> CD10, CD19 + CD20
• T-ALL –> CD2-CD8

Question 21

ALL - chromosomal changes

Answer 21

90% with chromosomal abnormalities

B-ALL

• Hyperdiploidy
• Hypodiploidy
• Balanced translocation
• –> t(9;22)- Philadelphia chromosome = poor prognosis, more commonly seen in adults
• –> t(12;21) = Better prognosis, more commonly seen in children

T-ALL

• NOTCH1
• Translocation of alpha-delta, beta, gamma receptor loci

Question 22

Small lymphocytic lymphoma

Chronic lymphocytic leukemia

Answer 22

CLL = Neoplastic proliferation of naive B cells –> most common leukemia overall

Involvement of lymph nodes leads to generalized lymphadenopathy –> called small lymphocytic lymphoma

• Older adults
• Typically indolent disease, but may undergo transformation
• –> Prolymphocytic
• –> Diffuse large B-cell lymphoma

Morphology:

• involvement of nodes, liver, spleen, marrow and blood
• increased lymphocytes and smudge cells are seen on blood smear
• small lymphocytes –> proliferation centers (pseudofollicles) are pathognomonic

Immuno and Molecular

• Mature B cell markers and surface Ig –> CD5, CD19, CD23
• chromosomal translocations are rare
• deletions and trisomies are more common

Question 23

Myelodysplastic syndromes

Answer 23

Clonal populations with defective maturation

• often with chromosomal abnormalities –> monosomies, deletions, trisomies
• may be primary or secondary to therapy
• high rate of progression to AML

Morphology

• marrow usually hypercellular, but may be normo or hypocellular
• dysplastic differentiation of all lineages –> may be different degrees of involvement

Question 24

Myeloproliferative disorders/neoplasms

Answer 24

Neoplastic proliferation of mature cells of myeloid lineage –> result in high WBC count with hypercellular bone marrow

• cell of all myeloid lineages are increased –> classified based on the dominant myeloid cell produced
• increased proliferation in marrow and in secondary hematopoietic organs

Common pathogenesis - activating mutation of TKs

• activate growth/survival
• do not alter differentiation –> increased numbers of mature blood cells

Complications

• increased risk for hyperuricemia and gout due to high turnover of cells
• progression to marrow fibrosis and cytopenias = spent phase
• transformation to acute leukemia

Question 25

Polycythemia Vera

Answer 25

Neoplastic proliferation of mature myeloid cells, especially RBCs

• granulocytes and platelets are also increased
• associated with JAK2 mutation
• ~20% of patients progress over time to spent phase = marrow fibrosis, splenomegaly due to extramedullary hematopoiesis
• very rare progression to AML

Question 26

Clinical symptoms of polycythemia vera

Answer 26

Mostly due to hyperviscosity of blood

• blurry vision and headache
• increased risk of venous thrombosis
• flushed face due to congestion
• itching, especially after bathing –> due to histamine release from increased mast cells

Question 27

Essential thrombocytosis

Answer 27

Neoplastic proliferation of mature myeloid cells, especially platelets

• RBCs and granulocytes are also increased
• associated with JAK2 mutation

Symptoms related to an increased risk of bleeding and/or thrombosis

• rarely progresses to marrow fibrosis or acute leukemia
• no significant risk for hyperuricemia or gout
• extramedually hematopoeisis + organomegaly in ~50%

Differential diagnosis

• PCV –> absence of polycythemia
• PMF –> absence of marrow fibrosis

Question 28

Essential thrombocytosis morphology

Answer 28

• normocellular/mildly hypercellular marrow
• markedly increased megakaryocytes –> may be atypically large
• lack of true fibrosis
• peripheral blood with increased and atypically large platelets

Question 29

Primary myelofibrosis

Answer 29

Replacement of marrow space by fibrosis, without a preceding myeloproliferative disorder
- JAK2 50-60

Morphology

• early phase may resemble PCV –> lacks criteria of erythroid mass/hct for PCG; only presents in this phase in ~30% of cases
• progressive fibrosis with crowding out of marrow elements –> premature forms will be released into blood; bone marrow space may subsequently ossify
• extramedullary hematopoiesis

Question 30

Difference between myelodysplastic syndromes and myeloproliferative syndromes

Answer 30

Myelodysplastic syndromes

• abnormal maturation
• relatively high rate of progression to AML

Myeloproliferative syndromes
- normal maturation