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CHIMERISM. Principles and practise.

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Title: CHIMERISM. Principles and practise. Author: Mark Lawler Last modified by: MLAWLER Created Date: 11/14/2001 9:59:40 PM Document presentation format – PowerPoint PPT presentation

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Title: CHIMERISM. Principles and practise.


1
Normal haemopoiesis
2
ABNORMALITIES IN THE HEMOPOIETIC SYSTEM
  • CAN LEAD TO
  • HEMOGLOBINOPATHIES
  • HEMOPHILIA
  • DEFECTS IN HEMOSTASIS/THROMBOSIS
  • HEMATOLOGICAL MALIGNANCY

3
MUTATIONS AND DNA
  • VARIOUS TYPES OF MUTATIONS CAN OCCUR LEADING TO
    DISEASE PHENOTYPE
  • POINT MUTATIONS
  • INSERTIONS OR DELETIONS
  • TRANSLOCATIONS
  • COMPLEX CHROMOSOMAL REARRANGEMENTS

4
EXAMPLE OF COMMON MUTATIONS IN HUMAN DISEASE
5
Sickle cell disease
6
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7
Sickle cell disease, morphology and molecular
8
  • VARIABILITY IN GENETIC DISEASES
  • ONE DISEASE, ONE GENE, ONE MUTATION
  • ONE DISEASE, ONE GENE, MANY MUTATIONS
  • ONE DISEASE, MORE THAN ONE GENE, MANY
  • MUTATIONS

9
HAEMOPHILIA X LINKED RECESSIVE
DISORDER HAEMOPHILIA A MUTATIONS IN FACTOR
VIII GENE HAEMOPHILIA B MUTATIONS IN FACTOR IX
GENE SIMPLE AND COMPLICATED MUTATIONS THE FLIP
TIP MUTATION
10
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11
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12
F8B
A
CEN
TEL
B
TEL
E1 E22 E23
E26
CEN
F8A
C
E1
E22
E23 E26
TEL
CEN
INVERSION 22
FIGURE 4 THE IVS 22 MUTATION IN HAEMOPHILIA A.
13
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14
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15
Genetic factors and deep vein thrombosis
  • FACTOR V LEIDEN MUTATION
  • PROTHROMBIN MUTATION
  • ? OTHER FACTORS IN THE PROTEIN C PATHWAY
  • FVL LEADS TO SIGNIFICANT INCREASE IN RISK OF DVT,
    PARTICULARLY IN ASSOCIATION WITH OTHER
    ENVIRONMENTAL FACTORS EG OCP

16
CANCER DEVELOPMENT ITS IN THE GENES
17
HOW DOES A CELL BECOME TUMORIGENIC?
  • THREE PROCESSES ARE INVOLVED
  • IMMORTALISATION
  • TRANSFORMATION
  • METASTASIS

18
IMMORTALISATION
  • PROCESS BY WHICH THE CELLS ARE INDUCED TO GROW
    INDEFINITELY

19
TRANSFORMATION
  • CELLS ARE NOT CONSTRAINED IN TERMS OF GROWTH
    CHARACTERISTICS AND TEND TO BECOME FACTOR
    INDEPENDENT

20
METASTASIS
  • CANCER CELLS GAIN THE ABILITY TO INVADE NORMAL
    TISSUE AND ESTABLISH OTHER FOCI OF MALIGNANCY

21
WHAT CAUSES CELL TRANSFORMATION?
  • ENVIRONMENTAL
  • CARCINOGENS(INITIATORS AND PROMOTERS)
  • GENETIC
  • SOMATIC MUTATIONS
  • MENDELIAN INHERITANCE

22
ONCOGENES
  • NORMAL CELLULAR COUNTERPARTS(PROTO-ONCOGENES)
  • MUTATION/ACTIVATION LEADS TO TUMOR FORMATION
  • HUNDREDS OF ONCOGENES IDENTIFIED
  • GAIN OF FUNCTION

23
Tumour suppressor genes
  • Originally known as recessive oncogenes
  • Need to have both copies of the gene affected to
    promote a malignant phenotype
  • Knudsons 2 hit hypothesis
  • First mutation makes cells susceptiple to
    development of cancer
  • 2nd hit leads to a malignant phenotype

24
TRANSLOCATIONS AND CANCER
  • SEEMS PARTICULARLY RELEVANT IN HEMATOLOGICAL
    MALIGNANCIES
  • CHRONIC MYELOID LEUKEMIA
  • ACUTE PROMYELOCYTIC LEUKEMIA
  • BURKITTS LYMPHOMA
  • NON HODGKINS LYMPHOMA

25
Leukaemia, the current hypothesis
  • Defect in maturation of white blood cells
  • May involve a block in differentiation and/or a
    block in apoptosis
  • Acquired genetic defect
  • Initiating events unclear
  • Transformation events involve acquired genetic
    changes
  • Chromosomal translocation implicated in many
    forms of leukaemia

26
Chronic Myeloid Leukaemia
  • Malignancy of the haemopoietic system
  • Transformation of the pluripotent stem cell
  • 922 translocation giving rise to the
    Philadelphia (Ph) chromosome
  • Creation of a leukaemia specific mRNA (BCR-ABL)
  • Resistance to apoptosis, abnormal signalling and
    adhesion
  • Molecular diagnostics
  • Molecular and cellular therapeutics

27
Cytogenetic Abnormality of CMLThe Ph Chromosome
1
2
3
4
5
6
7
8
10
11
9
12
13
14
15
16
17
18
19
20
21
22
x
Y
28
The Ph Chromosome t(922) Translocation
9
9 q

22
Ph ( or 22q-)
bcr
bcr-abl
abl
FUSION PROTEINWITH TYROSINEKINASE ACTIVITY
29
Prevalence of the Ph Chromosome in
Haematological Malignancies
  • Leukaemia of Ph Patients
  • CML 95
  • ALL (Adult) 1530
  • ALL (Paediatric) 5
  • AML 2

Faderl S et al. Oncology (Huntingt).
199913169-184.
30
bcr-abl Gene and Fusion Protein Tyrosine Kinases
Chromosome 9
Chromosome 22
2-11
c-bcr
c-abl
1
2-11
p210Bcr-Abl
2-11
p185Bcr-Abl
Exons Introns CML Breakpoints ALL Breakpoints
Adapted from Melo JV. Blood. 1996882375-2384.
31
NON HODGKINS LYMPHOMA
  • B CELL FOLLICULAR LYMPHOMA
  • t(1418)(q21q14)
  • BCL 2 AND IMMUNOGLOBULIN GENES INVOLVED
  • DYSREGULATION OF BCL 2
  • FAILURE OF APOPTOSIS

32
Detecting Cancer where to begin?
33
Detecting cancer, the need for a marker of disease
34
Detecting Cancer different markers for
different diseases?
35
Cancer Molecular Diagnostics discriminating
cancers at the gene level
36
How Cancer Molecular Diagnostics?
  • Chromosome analysis
  • Gene analysis
  • Gene expression analysis
  • Protein analysis
  • Gene chip analysis

37
Leukaemia diagnostics
  • Morphology
  • Cytogenetics
  • Fluorescent In Situ Hybridisation (FISH)
  • Immunophenotyping
  • PCR of chromosomal translocations

38
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39
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40
New developments in Cancer Molecular
Diagnostics The Gene Chip
41
The Gene Chip, a Molecular snap shot of the cell
42
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43
MOLECULAR MEDICINE
  • A new approach to medicine
  • New Diagnostics
  • New Therapeutics
  • A number of agents now in clinical trials
  • Molecular medicine will help identify new targets
    and permit rational drug development
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