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Transcript
Molecular Biology
of Diseases
Types of diseases
On the basis of genetic background
1.
1. Monogenic diseases
2. Multifactorial diseases
3. Mitochondrial diseases
Mixed system
1.
4. Chromosomal disorders
1. Cardiovascular diseases
5. Epigenetic diseases
2. Cancer diseases
6. Non-inherited genetic diseases
3. Autoimmune diseases
7. Non-genetic diseases
4. Metabolic disorders
5. Dementia
6. etc.
1
2
Penetrance continuum
……………
CAUSATIVE FACTOR ← The presence of a single mutant allele
Is decisive in the development of the disease
Complex diseases
The „appropriate” environment and
SUSCEPTABILITY FACTOR
other alleles of different genes are also
necessary for the development of the diseases
←
Monogenic diseases
Selection against the complex diseases
3
The causes for the high prevalence of complex diseases
1.
2.
The negative selection is not efficient – the disease appears at middle or old age
Is it a tool in the hand of evolution for providing an optimal life time?
4
Monogenic Diseases
6000
1. Autosome-linked
2. Sex chromosome-linked (X, Y)
1. Dominant
2. Recessive
3. Co-dominant
4. Intermediate
0,5%
Heterozygote advantage
The survival of heterozygote is better, than those of carrying two homozygous normal alleles
The classic example: sickle cell anaemy: the heterozygotes are resistant against malaria
2 normal
hemoglobins
1 normal +
2 mutant
1 mutant
hemoglobins
hemoglobins
The elimination of mutant
alleles takes time!
5
XY – sick males
The X –linked diseases are frequent in males, but rare in females
Y-linked diseases are rare, since there are few genes on Y chromosome
Why is there difference between the sexes if the X chr. is inactivated?
1. The pseudo-autosomal region is active
2. There is no inactivation in the early stage of embryogenesis
3. The mosaic expression is often enough for the functionality
6
7
Cystic fibrosis
Dorothy H. Andersen:
1938
F508
CFTR gene
25 kb
exon
intron
CFTR protein
Treatment
Transmembrane
segments
Nucleotide binding
fokls
R domain
CFTR: cystic fibrosis transmembrane conductance regulator
Gene therapy of
cystic fibrosis
CFTR gene
adenovirus
nucleus
mucosal cell
CFTR gene
lung
7b
CF and the heterozygote advantage
Knockout mouse
diarrhea
Sickle cell anemia
PKU - phenylketonuria
Ivar Asbjørn Følling
PAH: phenylalanine hydroxylase
SCID
ILR2G
gén
11
Severe combined immunodeficiency
David the bubble boy
2 main types:
1. X-linked SCID
2. ADA deficiency
SCID: severe combined immunodeficiency
SCID gene therapy
Clinical experiments – Boston Children’s Hospital
1. Isolation of stem cells from the bone marrow of sick child
2. Delivery of functional SCIDX1 gene to the stem cells
3. Retransplantation of genetically improved stem cells to the
bone marrow
ADA deficiency
adenosine deaminase
THERAPY
Duchenne Muscular Dystrophy
Mutations in the dystrophin gene
(X chromosome)
gene:
mRNA:
protein:
exon:
2,4 Mbp – the longest human gene
14 kbp (pre-mRNA: 2,4 kb)
3,500 amino acids
79
Thalassemias
Anemia: characteristic feature of thalassemias
Causes:
(1) decrease of the number or (2) the size of red blood cells;
(3) decrease of the number or (4) the O2-binding capacity of hemoglobin molecules
Genetic causes:
(1) mutation in the coding region of hemoglobin: abnormal protein structure
(2) mutation in the regulatory region of hemoglobin gene: few hemoglobin molecules
Galactosemia
GALT: galactose-1-phosphate uridyl transferase
Hemophilia
Victorian bleedness
Hemophilia
Inability of blood clotting
Hemophilia A: VIIth factor deficiency
Hemophilia B: VIIIth factor deficiency
No fibrin generation
X chromosome-linked
Marphan syndrome
18
Genetic disease of the
connective tissue;
Dominant inheritance
Mutation:
90% fibrillin 1 gene
10% TGF- gene
Michael Phelps
Achondroplasia
- 85% sporadic
- Rarely: mutation inFGFR3 gene
(G → A; Gly → Arg)
1138.
(98%)
Problem in chondrogenesis
(cartilage formation) 
 slow growth of bones
FGFR3: fibroblast growth factor 3
19
Albinism
20
Tyr → melanin
1. Tyrosinase gene albinisms
2. P gene albinisms
MRC1 gene mutation: Caucasoid race and Neanderthal man
Tay-Sach disease
Mutation of HEXA gene →
→ accumulation of toxic amount of gangliozid in the brain
The intelligence of Ashkenazi Jews
HEXA: hexoseaminidase
21
22
Color blindness
X chromosome:
OPN1LW (opsin 1L, red)
OPN1MW (opsin 1L, green)
1. Achromacy
2. Monochromacy
3. Dichromacy
protanopia
deuteranopia
tritanopia
4. Anomalous trichromacy
EVOLUTION:
a person with deuteranopia can distinguish more khaki shades
– better recognition of camouflage
Color blindness
Color blindness
Color blindness
Color blindness
Trichromatic vision for squirrel monkey
L-opsin gene delivery to retinal cones by adenoassociated virus (AAV) vector