Intro to MEDI 545

Nonmendelian Kalıtım:
Dinamik mutasyonlar
Objectifler
Üçlü nukleotid tekrarları
Fragil X sendromu, Friedreich’s ataxia,
Huntington’s hastalığı ve Myotonic distrofi
Tarihçe
1991’de gözlendiler
Üçlü nukleotidlerde stabil olmayan artışlar izlendi
Tekrarlar normalde populasyonda polimorfik,
fakat ailelerde stabil
Tekrarlar etkilenen ailelerde stabil değil
Artış çok farklı değerlerde olabilir
14 stabil olmayan Trinukleotid
tekrarı ve bunlarla ilgili hastalıklar
AUG
TAA
CGG
GAA
Fredreich’s Ataxia
Fragil X Sendromu
Fragil XE MR
CAG
CTG
Myotonik Distrofi
Spinobulbar Muscular Atrophy
Huntington’s Disease
Dentatorubral-Pallidoluyslan Atrophy
Spinocerebellar Ataxia Type 1
Spinocerebellar Ataxia Type 1
Spinocerebellar Ataxia Type 2
Spinocerebellar Ataxia Type 6
Spinocerebellar Ataxia Type 7
Spinocerebellar Ataxia Type 8
Spinocerebellar Ataxia Type 12
Machado-Joseph Disease (SCA3)
AUG
TAA
CGG
GAA
Fredreich’s Ataxia
Fragile X Syndrome
Fragile XE MR
CAG
CTG
Myotonic Dystrophy
Spinobulbar Muscular Atrophy
Huntington’s Disease
Dentatorubral-Pallidoluyslan Atropphy
Spinocerebellar Ataxia Type 1
Spinocerebellar Ataxia Type 1
Spinocerebellar Ataxia Type 2
Spinocerebellar Ataxia Type 6
Spinocerebellar Ataxia Type 7
Spinocerebellar Ataxia Type 8
Spinocerebellar Ataxia Type 12
Machado-Joseph Disease (SCA3)
AUG
CGG
TAA
CAG
GAA
Intronik
5’ UTR
CTG
3’ UTR
Polyglutamine
Kodlama yapan
bölgede
Ortak özellikler:
Nörolojik hastalık
Genelde Otozomal Dominant –X-bağlı veya resesif olabilirler
Azalmış penetrans gösterebilirler
Slipped Mispairing underlies triplet repeat expansion
5’
Lagging Strand Template
(A)
Leading Strand Template
3’
5’
Polymerization proceeds from 5’ to 3’
for the newly synthesized DNA strands.
On the lagging strand, synthesis proceeds
5’ to 3’ for each Okazaki fragment, but
overall lagging strand synthesis proceeds
3’ to 5’ as the fragments extend, meet and
are ligated together, indicated by 1,2,3.
3
2
5’
Okazaki Fragments
3’
5’
(B)
Slipped Mispairing underlies triplet repeat expansion
5’
Lagging Strand Template
Leading Strand Template
(A)
3’
5’
Polymerization proceeds from 5’ to 3’
for the newly synthesized DNA strands.
On the lagging strand, synthesis proceeds
5’ to 3’ for each Okazaki fragment, but
overall lagging strand synthesis proceeds
3’ to 5’ as the fragments extend, meet and
are ligated together, indicated by 1,2,3.
3
2
5’
Okazaki Fragments
3’
5’
(B)
Fragil X
X-bağlı dominant penetrans azlığı gösterir
Orta düzeyde mental retardasyon – 1/4000
erkeklerde; 1/8000 dişilerde
X kromozomunda (Xq27.3)
“fragil” bölge dekondanse
Fragil X Mental Retardasyon gen 1
FMR1
(CGG)n
614 amin o ac ids (69 kD)
AUG
1
2
3
4
5
6
7
8
38 kb
9
10
TAA
11
12
13
14
15
16
17
Klinik özellikler: Fragil X
Uzun yüz –
Büyük kulaklar
Mental gerilik (I.Q. 20-60)
Dikkat kusuru/hiperaktivite
Fragile X in males
2 yrs.
5 yrs.
22 yrs.
Fragile X in females
Fragil X’de CGG 5’ UTR de FMR1
geninde
Allel tipleri:
 Normal allel – 7-40 CGG
 Premutasyon allel - 60-200
 Hasta allel - >200 den binlerce tekrara kadar
İşlev kaybı
Fragil X
CpG
Island
5’
Transcription
Translation
(CGG) n
3’
 40 repeats Common
41-60 repeats
Intermediate
61-200 repeats
> 200 repeats, methylated
Premutation
Male
Female
1/25
1/16
1/1000
1/350
Full mutation 1/4000
1/8000
FMR1 Repeat Instability
mean
94,25
86,25
85,25
90
111
500
II
88
104
III
>230
95 118 93
31
Full mutation
Premutation
Normal
32P-CGG
I
probe of PCR
Functional domains in the FMR protein
NLS
111-152
111-152
KH1
206-280
206-280
KH2
NES
281-422
425-441
281-422
425-441
RGG
527-552
527-552
Cytoplasmic protein
NLS-nuclear localization sequence (Eberhardt, et al. 1996. Hum.Mol.Gen)
KH-homology to hnRNP K (Siomi, et al. 1993. Cell)
NES-nuclear export sequence (Eberhardt, et al. 1996. Hum.Mol.Gen)
RGG-arginine-glycine-rich region (Siomi, et al. 1993. Cell)
Model for FMRP
function in neurons
AXON
FMRP
DENTRITE
mGluR
Glu
Spine maturation; synaptic plasticity
Friedreich Ataxia
1/50,000
otosomal recessive
spinocerebellar ataxia
www.barnstormers.org.uk/ images/jamie1.jpg
Friedreich Ataxia
AAG tekrarları intron frataxin de
Alel Tipleri:
 Normal allel - <34 tekrar
 Taşıyıcı allel – 36-100 tekrar
 Hasta allel - >100 tekrar
AUG
CGG
TAA
GAA
CAG
CTG
Frataxin mitokondrial protein
Demir metabolismasında iş görür.
Huntington Disease (HD)
Otosomal Dominant (~1/25,000,)
Orta yaşta başlar ölümle sonuçlanır.
Atrophy of the caudate and
putamen
HD CAG tekrarı ile oluşur.
polyglutamin-kodlayan gende CAG ekson 1de
Normalde – 9-35 CAG tekrar
Hastalarda – 36+ tekrar üstü 120 ye kadar.
Solid line – avg age at onset; shaded area shows rage of age of onset
Artış mayozda oluşur
Huntington Hastalığı ve Founder (Kurucu)
etkisi
Myotonik Distrofi
Myotonic Dystrophy CTG tekrarı
CTG tekrarı 3’UTR DMPK geni (19q13) – bir protein
kinase

Normal allel – 5-30 CTG tekrar

Orta – 50-80 tekrar

Klasik allel – 80-150 tekrar

Kongenital – 2,000+ tekrar
Anticipation in Myotonic Dystrophy
mild
Repeat size in DMPK gene 60, 6
5, 7
classic
classic
90, 5
96, 7
4, 12
congenital
congenital
2150, 12
2900, 4
Sonuç
Üçlü nükleotid tekrarları hastalıklar oluşturabilir.
Myotonic Dystrophy
Huntington’s Disease
Fragile X Syndrome
Friedreich’s Ataxia