Never-before-seen DNA recombination in the brain linked to Alzheimer's disease
Scientists have identified gene recombination in
neurons that produces thousands of new gene variants within Alzheimer's
disease brains. The study, reveals for the first time how the Alzheimer's-linked gene, APP, is recombined by using the same type of enzyme found in HIV.
Using new analytical methods focused on single and multiple-cell
samples, the researchers found that the APP gene, which produces the
toxic beta amyloid proteins defining Alzheimer's disease, gives rise to
novel gene variants in neurons -- creating a genomic mosaic. The process
required reverse transcription and reinsertion of the variants back
into the original genome, producing permanent DNA sequence changes
within the cell's DNA blueprint.
"We used new approaches to study the APP gene, which gives rise to amyloid plaques, a pathological hallmark of the disease," says senior author of the paper. "Gene recombination was discovered as both a normal process for the brain and one that goes wrong in Alzheimer's disease."
One hundred percent of the Alzheimer's disease brain samples contained an over-abundance of distinct APP gene variants, compared to samples from normal brains. Among these Alzheimer's-enriched variations, the scientists identified 11 single-nucleotide changes identical to known mutations in familial Alzheimer's disease -- a very rare inherited form of the disorder. Although found in a mosaic pattern, the identical APP variants were observed in the most common form of Alzheimer's disease, further linking gene recombination in neurons to disease.
"These findings may fundamentally change how we understand the brain and Alzheimer's disease," says the author. "If we imagine DNA as a language that each cell uses to 'speak,' we found that in neurons, just a single word may produce many thousands of new, previously unrecognized words. This is a bit like a secret code embedded within our normal language that is decoded by gene recombination. The secret code is being used in healthy brains but also appears to be disrupted in Alzheimer's disease."
Potential near-term Alzheimer's treatment uncovered
The scientists found that the gene recombination process required an enzyme called reverse transcriptase, the same type of enzyme HIV uses to infect cells. Although there is no medical evidence that HIV or AIDS causes Alzheimer's disease, existing government-approved antiretroviral therapies for HIV that block reverse transcriptase might also be able to halt the recombination process and could be explored as a new treatment for Alzheimer's disease. The scientists noted the relative absence of proven Alzheimer's disease in aging HIV patients on antiretroviral medication, supporting this possibility.
"Our findings provide a scientific rationale for immediate clinical evaluation of HIV antiretroviral therapies in people with Alzheimer's disease," says . "Such studies may also be valuable for high-risk populations, such as people with rare genetic forms of Alzheimer's disease."
Adds first author, "Reverse transcriptase is an error-prone enzyme -- meaning it makes lots of mistakes. This helps explain why copies of the APP gene are not accurate in Alzheimer's disease and how the diversity of DNA in the neurons is created."
An explanation for recent clinical trial setbacks
The amyloid hypothesis, or the theory that accumulation of a protein called beta-amyloid in the brain causes Alzheimer's disease, has driven Alzheimer's research to date. However, treatments that target beta-amyloid have notoriously failed in clinical trials. Today's findings offer a potential answer to this mystery.
"The thousands of APP gene variations in Alzheimer's disease provide a possible explanation for the failures of more than 400 clinical trials targeting single forms of beta-amyloid or involved enzymes," says the author. "APP gene recombination in Alzheimer's disease may be producing many other genotoxic changes as well as disease-related proteins that were therapeutically missed in prior clinical trials. The functions of APP and beta-amyloid that are central to the amyloid hypothesis can now be re-evaluated in light of our gene recombination discovery."
Close of one chapter opens another
"Today's discovery is a step forward -- but there is so much that we still don't know," says the author. "We hope to evaluate gene recombination in more brains, in different parts of the brain and involving other recombined genes -- in Alzheimer's disease as well as other neurodegenerative and neurological diseases -- and use this knowledge to design effective therapies targeting gene recombination."
He adds, "It is important to note that none of this work would have been possible without the altruistic generosity of brain donors and their loving families, to whom we are most grateful. Their generosity is yielding fundamental insights into the brain,and are leading us toward developing new and effective ways of treating Alzheimer's disease and possibly other brain disorders -- potentially helping millions of people. There is much more important work to be done."
"We used new approaches to study the APP gene, which gives rise to amyloid plaques, a pathological hallmark of the disease," says senior author of the paper. "Gene recombination was discovered as both a normal process for the brain and one that goes wrong in Alzheimer's disease."
One hundred percent of the Alzheimer's disease brain samples contained an over-abundance of distinct APP gene variants, compared to samples from normal brains. Among these Alzheimer's-enriched variations, the scientists identified 11 single-nucleotide changes identical to known mutations in familial Alzheimer's disease -- a very rare inherited form of the disorder. Although found in a mosaic pattern, the identical APP variants were observed in the most common form of Alzheimer's disease, further linking gene recombination in neurons to disease.
"These findings may fundamentally change how we understand the brain and Alzheimer's disease," says the author. "If we imagine DNA as a language that each cell uses to 'speak,' we found that in neurons, just a single word may produce many thousands of new, previously unrecognized words. This is a bit like a secret code embedded within our normal language that is decoded by gene recombination. The secret code is being used in healthy brains but also appears to be disrupted in Alzheimer's disease."
Potential near-term Alzheimer's treatment uncovered
The scientists found that the gene recombination process required an enzyme called reverse transcriptase, the same type of enzyme HIV uses to infect cells. Although there is no medical evidence that HIV or AIDS causes Alzheimer's disease, existing government-approved antiretroviral therapies for HIV that block reverse transcriptase might also be able to halt the recombination process and could be explored as a new treatment for Alzheimer's disease. The scientists noted the relative absence of proven Alzheimer's disease in aging HIV patients on antiretroviral medication, supporting this possibility.
"Our findings provide a scientific rationale for immediate clinical evaluation of HIV antiretroviral therapies in people with Alzheimer's disease," says . "Such studies may also be valuable for high-risk populations, such as people with rare genetic forms of Alzheimer's disease."
Adds first author, "Reverse transcriptase is an error-prone enzyme -- meaning it makes lots of mistakes. This helps explain why copies of the APP gene are not accurate in Alzheimer's disease and how the diversity of DNA in the neurons is created."
An explanation for recent clinical trial setbacks
The amyloid hypothesis, or the theory that accumulation of a protein called beta-amyloid in the brain causes Alzheimer's disease, has driven Alzheimer's research to date. However, treatments that target beta-amyloid have notoriously failed in clinical trials. Today's findings offer a potential answer to this mystery.
"The thousands of APP gene variations in Alzheimer's disease provide a possible explanation for the failures of more than 400 clinical trials targeting single forms of beta-amyloid or involved enzymes," says the author. "APP gene recombination in Alzheimer's disease may be producing many other genotoxic changes as well as disease-related proteins that were therapeutically missed in prior clinical trials. The functions of APP and beta-amyloid that are central to the amyloid hypothesis can now be re-evaluated in light of our gene recombination discovery."
Close of one chapter opens another
"Today's discovery is a step forward -- but there is so much that we still don't know," says the author. "We hope to evaluate gene recombination in more brains, in different parts of the brain and involving other recombined genes -- in Alzheimer's disease as well as other neurodegenerative and neurological diseases -- and use this knowledge to design effective therapies targeting gene recombination."
He adds, "It is important to note that none of this work would have been possible without the altruistic generosity of brain donors and their loving families, to whom we are most grateful. Their generosity is yielding fundamental insights into the brain,and are leading us toward developing new and effective ways of treating Alzheimer's disease and possibly other brain disorders -- potentially helping millions of people. There is much more important work to be done."
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Labels: Alzheimer's, amyloid hypothesis, anti-retro-viral drugs, APP gene, beta-amyloid proteins, enzyme, gene recombination, HIV, neurons, reverse transcriptase, single-nucleotide changes, toxic
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