New gene therapy used to treat rare brain disease; Surprise ingredient: modified HIV; Study has implications for other disorders.Byline: Lauran Neergaard; The Associated Press Associated Press: see news agency. Associated Press (AP) Cooperative news agency, the oldest and largest in the U.S. and long the largest in the world. WASHINGTON -- French scientists mixed gene therapy and bone-marrow transplants in two boys to seemingly halt a brain disease that can kill by adolescence. The surprise ingredient: They disabled the human immunodeficiency virus human immunodeficiency virus n. HIV. Human immunodeficiency virus (HIV) A transmissible retrovirus that causes AIDS in humans. so it couldn't cause AIDS, and used it to carry in the healthy new gene. The experiment marks the first time researchers have tried that long-contemplated step in people -- and the first effective gene therapy against a severe brain disease, said lead researcher Dr. Patrick Aubourg of the University Paris-Descartes. Although it's a small, first-step study, it has "exciting implications" for other blood and immune disorders that had been feared beyond gene therapy's reach, said Dr. Kenneth Cornetta, president of the American Society of Gene and Cell Therapy. "This study shows the power of combining gene therapy and cell therapy," added Cornetta, whose own lab at Indiana University Indiana University, main campus at Bloomington; state supported; coeducational; chartered 1820 as a seminary, opened 1824. It became a college in 1828 and a university in 1838. The medical center (run jointly with Purdue Univ. has long researched how to safely develop gene delivery using lentiviruses, HIV's family. The research was published in today's edition of the journal Science. In 20 years of gene-therapy research, there have been few home runs and some headline-making setbacks, including a risk of leukemia leukemia (l  kē`mēə), cancerous disorder of the blood-forming tissues (bone marrow, lymphatics, liver, spleen) characterized by excessive production of immature or mature caused
by otherwise successful gene therapy for another rare disorder,
"bubble boy disease." That's a risk that specialists hope
a lentivirus-based gene therapy will eliminate.
Best known from the movie "Lorenzo's Oil," adrenoleukodystrophy, or ALD ALD abbr. adrenoleukodystrophy ALD, n.pr See adrenoleukodystrophy. ALD aldolase. , is a rare genetic disease that, in its most devastating dev·as·tate tr.v. dev·as·tat·ed, dev·as·tat·ing, dev·as·tates 1. To lay waste; destroy. 2. To overwhelm; confound; stun: was devastated by the rude remark. form, destroys the coating of nerve fibers in boys' brains. Without that coating, myelin myelin /my·elin/ (mi´e-lin) the lipid-rich substance of the cell membrane of Schwann cells that coils to form the myelin sheath surrounding the axon of myelinated nerve fibers. , the neurological system breaks down. The disease typically strikes between ages 4 and 10, leading to blindness, deafness, dementia and a loss of muscle control, and kills the boys within a few years. Bone-marrow transplants can halt ALD by letting new myelin-forming stem cells stem cells, unspecialized human or animal cells that can produce mature specialized body cells and at the same time replicate themselves. Embryonic stem cells are derived from a blastocyst (the blastula typical of placental mammals; see embryo), which is very young take root. But it's difficult to find a matching marrow donor, and the transplant is risky. So what if stem cells from the boys' own bone marrow could be genetically corrected, eliminating the ALD mutation? To do that, Aubourg's team had to overcome a technical hurdle: Gene therapy works when scientists deliver a healthy new gene by attaching it to a virus that can harmlessly infect cells. But none of today's so-called gene-therapy "vectors" could penetrate enough of the stem cells needed for an ALD treatment to work. Unlike most viruses, HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. can penetrate stem cells, and it sticks permanently. So Aubourg's team removed the genetic parts of HIV that make it dangerous, leaving basically a scaffolding to carry the new therapeutic gene. Then they culled stem cells from two 7-year-old boys in the early stages of ALD, and mixed in the healthy gene. The boys underwent bone-marrow-destroying chemotherapy and then had their genetically corrected stem cells reinserted. Two years later, the boys have shown no sign of worsening brain damage and are functioning well, with 15 percent of their blood cells blood cells, n.pl the formed elements of the blood, including red cells (erythrocytes), white cells (leukocytes), and platelets (thrombocytes). blood cells See erythrocyte and leukocyte. Platelets are classed separately. producing the healthy protein, said Aubourg, who plans to test the experimental procedure in more patients. An advocacy group, the Stop ALD Foundation, is working to raise money for a similar U.S. study. Copyright (c) 2009 Seattle Times Company, All Rights Reserved. |
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