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Acute Leukemia and the FLT3 Receptor

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There are four major types of Leukemia, Acute Myeloid Leukemia (AML), Acute Lymphoblastic Leukemia (ALL), Chronic Myeloid Leukemia, and Chronic Lymphocytic Leukemia. – PowerPoint PPT presentation

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Title: Acute Leukemia and the FLT3 Receptor


1
Acute Leukemia and the FLT3 Receptor
  • By Betty Sa
  • Mentor Dr. Govind Bhagat
  • Site Columbia University
  • Vanderbilt Clinic

2

BACKGROUND
  • Leukemia is a cancer of the blood in which
    immature hematopoietic cells proliferate in an
    uncontrolled manner. Leukemia originates in the
    bone marrow and quickly spreads elsewhere. There
    are four major types of Leukemia, Acute Myeloid
    Leukemia (AML), Acute Lymphoblastic Leukemia
    (ALL), Chronic Myeloid Leukemia, and Chronic
    Lymphocytic Leukemia. But we are only focusing
    on AML and ALL. Acute means that the disease
    appears quickly and advances rapidly, so patients
    with ALL and AML usually require immediate
    treatment.

3
INTRODUCTION
  • Acute Lymphocytic Leukemia (ALL) is a rapidly
    progressing disease marked by the overabundance
    of immature lymphoid cells (lymphoblasts) in the
    blood or bone marrow most commonly found in
    children. Healthy lymphocytes fight bacterial
    and viral infections. But in patients with ALL
    the lymphocytes do not develop into mature cells,
    and remain immature cells called lymphoblasts. In
    this type of Leukemia blood cells differentiation
    and gets stuck at the lymphoblast stage and
    continues proliferation. So the abnormal cells
    crowd the normal cells in the bone marrow and
    prevent the production of red blood cells, other
    white blood cells, and platelets. This causes
    most ALL patients to become anemic, susceptible
    to infection, and bruise or bleed easily.
  • Acute Myeloid Leukemia (AML) is a cancer in which
    there is uncontrollable growth of immature
    myeloid cells (myeloblasts, promyelocytes,
    monoblasts, erythroblasts, megakaryoblasts) in
    the bone marrow that leads to a deficiency of red
    blood cells, platelets, and white blood cells. In
    these types of Leukemia blood cell differention
    gets stuck at various stages of myeloid,
    monocytic, erythroid, or megakaryocytic
    differentiation and these cells continue to
    proliferate.

4
INTRO CONTINUES...
  • There are different sub-types of AML, depending
    upon exactly which type of cell has become
    leukemic the stage of maturation the cells are at
    and whether the cells are differentiated, these
    sub-types include Acute Myeloid Leukemia without
    maturation, Acute Myeloid Leukemia with
    maturation, Acute Promyelocytic Leukemia (APL),
    Acute Myelomonocytic Leukemia, Acute
    Monocytic/Monoblastic Leukemia, Acute
    Erythroleukemia, and Acute Megakaryoblastic
    Leukemia.
  • In AML where the granulocytic (neutrophilic)
    series is affected, there is a block in the
    production of mature neutrophils. Neutrophilis
    fight infections caused by bacteria. The
    production of mature neutrophilis is usually
    tightly regulated. Mature neutrophilis develop
    from less mature white cells in a process called
    differentiation. In AML, acquired mutations in
    the blood-forming cells disrupt the normal
    process of differentiation, resulting in the
    accumulation of large members of immature cells
    called myeloblasts. If the erythroid lineage is
    affected, blasts cannot function like fully
    developed, healthy red blood cells. The large
    number of blasts also reduces the production of
    healthy red blood cells and platelets. So,
    patients are usually anemic.

5
ALL
AML
6
FLT3
  • FLT3 stands for FMS-like tyrosine kinase 3 gene,
    which encodes a membrane-bound receptor tyrosine
    kinase (RTK) that has a crucial role in normal
    haematopoiesis.
  • Normally, FLT3 expression is restricted to CD34
    hematopoietic stem/progenitor cells, brain,
    placenta, and gonads. Activation of FLT3 by
    FLT3-Ligand promotes the normal, in vitro growth
    of early progenitor cells.
  • In Acute Leukemia, mutations of the FLT3 gene
    have been found to be one of the most common
    acquired genetic lesions. FLT3 mutations can be
    detected in 30 of AML patients. There are two
    frequent types of somatic FLT3 genetic mutations
    internal tandem duplications (ITDs) in the
    juxtamembrane (JM) domain and point mutations in
    the activation loop of the tyrosine kinase domain
    (TKD).
  • Studies have shown that ITD mutations are
    triggered by any elongation or shortening of the
    JM domain of FLT3 due to additions or deletions
    of amino acids that result in the constitutive
    activation of FLT3. The presence of FLT3/ITD
    mutations is associated with a poor clinical
    outcome in both pediatric and adult patients
    with AML.

7
FLT3 Continues...
  • Point mutations in the activation loop of the
    kinase domain (FLT3/TKD) involves the aspartic
    acid, D835 residue, which leads to an activated
    configuration and transformation of myeloid
    cells. D835 mutations are missense mutations that
    results in substitution of tyrosine, histidine,
    valine, glutamic acid or asparagine for
    aspartatic acid at amino acid 835 of FLT3.
  • This mutation has been reported in 7 of patients
    with AML. TKD mutations, unlike ITD mutations,
    have not been shown to have any prognostic
    significance in AML patients.
  • Both types of FLT3 mutation cause
    ligand-independent activation of the receptor and
    activation of downstream signaling pathways.

8
Statistics
  • In 2006 an estimated 3,930 adults (2,150 men and
    1,780 women) in the US will be diagnosed with ALL
    and an estimated 1,490 (900 men, 590 women)
    deaths will occur. ALL is more common in adults
    older than 50. 20 to 30 of adults with ALL
    experience long-term disease remission or are
    cured of the disease.
  • ALL is more common in children than in adults
    74 of all new cases are diagnosed in children
    ages 0 to 19.
  • In 2006, an estimated 11,930 people (6,350 men
    and 5,580 women) in the US will be diagnosed with
    AML and an estimated 9,040 deaths will occur
    (5,090 men and 3,950 women). AML is most common
    in older adults around 60-65 years old.
  • The percentage of patients who survived at least
    five years after being diagnosed, for adults
    under the age 65 with AML is 33.

9

PURPOSE
  • To get a better understanding of the molecular
    abnormalities underlying Acute Leukemia's.
  • I will study the different types of FLT 3
    tyrosine kinase mutations in subsets of acute
    leukemias to determine their relative frequency
    and impact on the biologic course of disease .
  • I will also correlate the presence of FLT3
    mutations with other cytogenetic abnormalities in
    different types of acute leukemias to better
    understand the multi-step pathways of
    leukemogenesis.

10
Material and Methods
  • Case selection Acute leukemias diagnosed at
    Columbia University Medical Center over the past
    5 years for which cytogenetic information is
    available (at least 100 cases)
  • DNA extraction from peripheral blood or bone
    marrow aspirate samples
  • PCR using primers specific for certain portions
    of the FLT3 gene
  • Capillary gel electrophoresis
  • Analysis of spectrophoretograms for FLT3 TKD and
    FLT3-ITD mutations

11
REFERENCES
  • http//www.dsrct.demon.co.uk/cells.jpg
  • www.nature.com/reviews/cancer
  • www.vghtpe.gov
  • www.health.sa.gov.au/cancare
  • www.elsevier.com/locate/biocel
  • www.sciencedirect.com
  • health.on-topic.net/health/AcuteLymphocytic...

12

Acknownledgements
  • Dr. Govind Bhagat
  • Dr. Mahesh Mansukhani
  • Columbia University
  • Dr. Sat
  • MSKCC
  • Harlem Children Society
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