First use of oligonucleotide in a DMD boy in Japan

[David Feder]

I post today the report of the first human use of oligonucleotide in a DMD boy in Japan. This is a therapy to fix the gene and delay the evolution of disease. This report have only information about the preliminary results of this therapy.

(IN PRESS: Pediatric Research, 2006) Intravenous Infusion of an Antisense Oligonucleotide Results in Exon Skipping in Muscle Dystrophin mRNA of Duchenne Muscular Dystrophy

TAKESHIMA, YASUHIRO; YAGI, MARIKO; WADA, HIROKO; ISHIBASHI, KAZUTO; NISHIYAMA, ATUSHI; SAKAEDA, MIKIO KAKUMOTO TOSHIYUKI; SAURA, RYUICHI; OKUMURA, KATSUHIKO; MATSUO, MASAFUMI - Japan

Duchenne muscular dystrophy (DMD) is a fatal muscle wasting disease that is characterized by muscle dystrophin deficiency. We report that intravenous (IV) infusion of an antisense oligonucleotide created an in-frame dystrophin mRNA from an out-of-frame DMD mutation (via exon skipping) which led to muscle dystrophin expression. A 10-year-old DMD patient possessing an out-of-frame, exon 20 deletion of the dystrophin gene received a 0.5 mg/kg IV infusion of an antisense 31-mer phosphorothioate oligonucleotide against the splicing enhancer sequence of exon 19. This antisense construct was administered at one-week intervals for 4 wk. No side effects attributable to infusion were observed. Exon 19 skipping appeared in a portion of the dystrophin mRNA in peripheral lymphocytes after the infusion. In a muscle biopsy one week after the final infusion, the novel in-frame mRNA lacking both exons 19 and 20 was identified and found to represent approximately 6% of the total reverse transcription PCR product. Dystrophin was identified histochemically in the sarcolemma of muscle cells after oligonucleotide treatment. These findings demonstrate that phosphorothioate oligonucleotides may be administered safely to children with DMD, and that a simple IV infusion is an effective delivery mechanism for oligonucleotides that lead to exon skipping in DMD skeletal muscles.

[ljsdad]

wow is this a sucess

[Mirek]

David,
this is strange report. What is the difference between this report and report from 2004 :
pedata.med.kobe-u.ac.jp/english/englishpage.htm
I don't see progress.
BTW, was the first use of oligos in Japan in 2004 or now? Is it the same boy/same administration or another one?
Mirek

[David Feder]

Mirek: I can't get the full article; probably is the same boy, and this is an cientific report. I look for the article to give you this information.
David

[bhopeful]

Does this report on exon skipping by the Japanese mean that they are ahead of everyone else in this field of research?
Also, does it show that they have resolved the systemic delivery problem?

[David Feder]

Probably they are ahead than other team; but for each mutation we need an oligonucleotide different (I post recently an article about a generic oligonucleotide); I don't know if they working with other mutations or if the other teams works with this or other mutations. My question is: why the teams don't work all together? They don't solve the problem of sistemic delivery because the expression of dystrophyn in low (6%). They do a biopsy 1 week after the delivery (4 times). After more time the expression will increase? The boy will receive another dose for maintenance of effects? The force will increase (I think that only with the expression higher than 40% the force increase)? What they can do to increase this expression? Probably with more boys and with more time to see the effect they can answer this question.

[samuel]

David,
When do you predict systemic exxon skipping to become available for these boys?

[David Feder]

Samuel:
I think that they need more 5 years to complete the studies. UK, The Netherland, Australia will begin studies in 2006/2007.