Chapter 12- WBC: Neoplastic Proliferations of White Cells

Question 1

Malignancies are clinically the most important disorders of white cells. These diseases fall into
several broad categories:

Answer 1

• Lymphoid neoplasms
• Myeloid neoplasms
• histiocytoses

Question 2

What are Lymphoid neoplasms?

Answer 2

Lymphoid neoplasms include a diverse group of tumors of B-cell, T-cell, and NK-cell
origin.

In many instances the phenotype of the neoplastic cell closely resembles that of
a particular stage of normal lymphocyte differentiation, a feature that is used in the
diagnosis and classification of these disorders

Question 3

Where do Myeloid neoplasms arise?

Answer 3

early hematopoietic progenitors.

Question 4

What are the three categories of
myeloid neoplasia that are recognized:

Answer 4

• acute myeloid leukemias, in which immature
• myelodysplastic syndromes
• chronic myeloproliferative disorders,

Question 5

What are cute myeloid leukemias?

Answer 5

in which immature
progenitor cells accumulate in the bone marrow

Question 6

What are myelodysplastic syndromes?

Answer 6

which are
associated with ineffective hematopoiesis and resultant peripheral blood cytopenias

Question 7

What are chronic myeloproliferative disorders?

Answer 7

, in which increased production of one or more
terminally differentiated myeloid elements(e.g., granulocytes) usuallyleads to elevated
peripheral blood counts.

Question 8

What are histiocytoses?

Answer 8

uncommon proliferative lesions of macrophages and dendritic cells.

Although “histiocyte” (literally, “tissue cell”) is an archaic morphologic term, it is still often used.

A special type of immature dendritic cell, the Langerhans cell, gives rise to a spectrum of neoplastic disorders referred to as the Langerhans cell histiocytoses

Question 9

A special type of immature dendritic cell, the Langerhans cell, gives rise to a spectrum of neoplastic disorders referred to as the _________

Answer 9

Langerhans cell histiocytoses

Question 10

ETIOLOGIC AND PATHOGENETIC FACTORS IN WHITE CELL NEOPLASIA: OVERVIEW

As we will see in the following sections, the neoplastic disorders of white cells are extremely
varied. Before we delve into this complexity, it is worth considering a few themes of general
relevance to their etiology and pathogenesis

Answer 10

1. Chromosomal Translocations and Other Acquired Mutations
2. Inherited Genetic Factors.
3. Viruses.
4. Chronic Immune Stimulation.
5. Iatrogenic Factors
6. Smoking.

Question 11

Chromosomal Translocations and Other Acquired Mutations

What are present in the
majority of white cell neoplasms.?

As was discussed briefly in Chapter 7 , many specific
rearrangements are associated with particular neoplasms, suggesting a critical role in their
genesis.

Answer 11

Nonrandom chromosomal abnormalities, most commonly translocations

Question 12

Chromosomal Translocations and Other Acquired Mutations

Answer 12

• The genes that are mutated or otherwise altered often play crucial roles in the development, growth, or survival of the normal counterpart of the malignant cell
• Oncoproteins created by genomic aberrations often block normal maturation
• Proto-oncogenes are often activated in lymphoid cells by errors that occur during antigen receptor gene rearrangement and diversification

Question 13

What are the result of the genes that are mutated or otherwise altered often play crucial roles in the
development, growth, or survival of the normal counterpart of the malignant cell?

Answer 13

• “dominant- negative” protein interferes with a normal function (a loss of function
• inappropriate increase in some normal activity (a gain of function)
• certain tumors, different aberrations have the same functional consequence as a result of their convergence on a common critical signaling pathway or transcription factor
  *

Question 14

Give an example of different aberrations have the same functional consequence as a result of their
convergence on a common critical signaling pathway or transcription factor.

Answer 14

“MALTomas”

B-cell lymphomas
occurring in extranodal mucosal sites, which are often associated with translocations
involving either the MALT1 or the BCL10 gene.

The MALT1 and BCL10 proteins bind
one another in a protein complex that regulates NF-κB, a transcription factor with important pro-survival functions in normal lymphocytes.

The net effect of translocations
involving either MALT1 and BCL10 is the same—a dysregulation of the MALT1/BCL10 complex that causes the constitutive activation of NF-κB, [5] which (as we will see) plays a role in the pathogenesis of many lymphoid malignancies

Question 15

Many oncoproteins cause an arrest in differentiation, often at a stage when cells are proliferating rapidly. The importance of this block in maturation is most evident in the what?

Answer 15

acute leukemias, in which dominant-negative mutations involving transcription factors that interfere with early stages of lymphoid or myeloid cell differentiation often
collaborate with activating mutations in tyrosine kinases that increase cell survival and
proliferation ( Fig. 13-4 ).

However, this theme also applies to more mature lymphoid tumors. For example, BCL6 encodes a transcription factor that is expressed in germinal
center B cells. Without BCL6, germinal center B cells cannot form; however, BCL6 must
be turned off for germinal cell B cells to mature into memory B cells or plasma cells. As
we will discuss, aberrations that up-regulate BCL6 expression and prevent its downregulation
are very common in certain types of lymphomas derived from germinal center
B cells.

Question 16

Proto-oncogenes are often activated in lymphoid cells by what?

Answer 16

errors that occur during antigen receptor gene rearrangement and diversification.

Question 17

Among lymphoid cells, potentially oncogenic mutations occur most frequently in where?

Answer 17

germinal center B cells during
attempted antibody diversification.

After antigen stimulation, B cells enter germinal
centers and upregulate the expression of activation-induced cytosine deaminase (AID),
a specialized DNA-modifying enzyme that is essential for two types of Ig gene modifications: class switching, an intragenic recombination event in which the IgM
heavy-chain constant gene segment is replaced with a different constant segment (e.g., IgG3), thus allowing an isotype switch of antibody class; and somatic hypermutation, which creates point mutations within Ig genes that may by chance increase antibody
affinity for antigen ( Chapter 6 ).

Question 18

Give a certain example wherein a proto-oncogenes are activated in germinal center B- cell lymphomas by chromosomal translocations involving class switch regions?

Answer 18

Certain proto-oncogenes, such as c-MYC, are
activated in germinal center B-cell lymphomas by chromosomal translocations involving
class switch regions.

Remarkably, AID expression is sufficient to induce c-MYC/Ig translocations in normal germinal center B cells, [8,] [9] apparently because it creates
lesions in DNA that lead to chromosomal breaks

Parenthetically, it follows that even
activation of a strong oncogene like c-MYC is not sufficient to cause transformation,
emphasizing that (like other cancers) lymphomas arise due to a combination of multiple
genetic lesions. Other

Question 19

What Other proto-oncogenes,are more commonly activated in
germinal center B-cell lymphomasbypoint mutations,[10] which also seem tostem from
“mistargeting” of AID.

Answer 19

BCL6

Undoubtedly, the selective advantage offered by antibody diversification against infection far outweighs the price that is paid in terms of potentially
oncogenic mutations, but this is of little solace to individuals afflicted with tumors of
germinal center B-cell origin, which include the most common and clinically important
lymphoid neoplasms.

Question 20

What is V(D)J recombinase?

Answer 20

A different type of regulated genomic instability is unique to precursor B and T cells, which express a V(D)J recombinase that cuts DNA at specific
sites within the immunoglobulin (Ig) and T-cell receptor loci, respectively.

This process is
essential for the assembly of productive antigen receptor genes, but sometimes goes
awry, leading to the joining of portions of other genes to antigen receptor gene
regulatory elements.

Particularly in tumors of precursor T cells, proto-oncogenes are often deregulated by their involvement in such aberrant recombination events.

Question 21

Answer 21

FIGURE 13-4 Molecular pathogenesis of acute leukemia. Acute leukemias arise from
complementary mutations that block differentiation at early stages of white cell development,
enhance self-renewal, and increase growth and survival. Important examples of each type of
mutation are listed. BCR-ABL, breakpoint chromosomal region–Abelson kinase fusion gene;
MLL, mixed-lineage leukemia gene; PML-RARα, promyelocytic leukemia–retinoic acid
receptor α fusion gene

Question 22

What are genetic diseases that promote genomic instability are at increased risk of acute leukemia?

Answer 22

• Bloom syndrome,
• Fanconi anemia, and
• ataxia telangiectasia

Question 23

What Inherited Genetic Factors are associated with an increased incidence of childhood leukemia?

Answer 23

• Down syndrome (trisomy 21) and
• type I neurofibromatosis

Question 24

What are the three lymphotropic viruses

Answer 24

• viruses—human T-cell leukemia virus-1 (HTLV-1),
• Epstein-Barr virus (EBV),
• Kaposi sarcoma herpesvirus/human herpesvirus-8 (KSHV/HHV-8)

Question 25

HTLV-1 is associated with what?

Answer 25

adult T-cell
leukemia/lymphoma.

Question 26

EBV is found in a subset of?

Answer 26

• Burkitt lymphoma,
• 30% to 40% of Hodgkin lymphoma (HL),
• many B-cell lymphomas arising in the setting of T-cell immunodeficiency, and rare NK-cell lymphomas.

Question 27

KSHV is uniquely associated with what?

Answer 27

KSHV is uniquely associated with an
unusual B-cell lymphoma that presents as a malignant effusion, often in the pleural cavity.

Question 28

Several environmental agents that cause localized chronic immune stimulation predispose to
lymphoid neoplasia, which almost always arises within the _______

Answer 28

inflamed tissue.

Question 29

Give an example of Chronic Immune Stimulation that predispose to
lymphoid neoplasia.

Answer 29

• H. pylori infection and gastric B-cell lymphomas ( Chapter 17 ),
• and gluten-sensitive enteropathy and intestinal T-cell lymphomas

This can be contrasted with HIV
infection, which is associated with an increased risk of B-cell lymphomas that may arise within
virtually any organ.

Early in the course, T-cell dysregulation by HIV infection causes a systemic
hyperplasia of germinal center B cells that is associated with an increased incidence of germinal
center B-cell lymphomas.

In advanced infection (acquired immunodeficiency syndrome), severe
T-cell immunodeficiency further elevates the risk for B-cell lymphomas, particularly those
associated with EBV and KSHV/HHV-8

Question 30

What iatrogenic factors increase the risk of subsequent myeloid and lymphoid neoplasms?

Answer 30

Ironically, radiation therapy and certain forms of chemotherapy used to treat cancer increase
the risk of subsequent myeloid and lymphoid neoplasms. This association stems from the
mutagenic effects of ionizing radiation and chemotherapeutic drugs on hematolymphoid
progenitor cells.

Question 31

The incidence of acute myeloid leukemia is increased 1.3- to 2-fold in smokers, presumably
because of exposure to carcinogens, such as benzene, in tobacco smoke.