(Getty Images)
TAMPA -- Hefty jolts of caffeine have reinvigorated the brains of old, demented mice at the University of South Florida.
Mice aren't humans. And caffeine jitters aren't for the faint of heart.
But the caffeine connection raises intriguing possibilities for treating Alzheimer's disease.
USF scientists "were able to look both at the idea of treatment giving caffeine to animals that have already developed pathology as well as prevention," said Neil Buckholtz, chief of the dementias of aging branch of the National Institute on Aging. "It's really interesting."
So should you binge on latte or invest in Starbucks?
No way, Buckholtz and others cautioned.
"Lots of things have proven effective in mouse models but very few have been tested in humans," he said. "That's the gold standard, to see how this translates to humans."
The caffeine study, described in today's online version of the Journal of Alzheimer's Disease, was performed on mice genetically engineered to develop high levels of beta-amyloid, a protein associated with Alzheimer's in human brains.
Such mice typically start showing cognitive decline and elevated beta-amyloid levels by 8 or 9 months of age.
As they grow older, they also develop sticky clumps of amyloid plaque in their brains, another sign of human Alzheimer's.
Three years ago, the USF group showed that putting the mice on a high-caffeine diet soon after birth seems to prevent or delay these symptoms.
The latest experiments were aimed at treatment.
The mice received no caffeine until they were 18 to 19 months old, the human equivalent of about 70.
By then, the mice had progressed well into their dementia. Beta-amyloid levels were high, protein clumps had developed in their brains, and they performed poorly on memory tests.
For four or five weeks, some of the mice received pure caffeine in their drinking water, equivalent to 500 milligrams a day in an average human. That's what you would get in about five 8-ounce cups of regular coffee or 14 12-ounce cans of Coke Classic.
Control mice drank straight water.
Then all the mice went swimming.
In water mazes, mice swim around until they discover a comforting underwater platform that allows them to stand up and rest. Researchers return them to the water and watch how quickly they navigate their way back to the platform.
Normal mice with good memories find the platform without too many bad turns. A demented mouse struggles to learn.
In the USF study, demented mice fed straight water took more than twice as many bad turns as normal mice did.
Mice aren't humans. And caffeine jitters aren't for the faint of heart.
But the caffeine connection raises intriguing possibilities for treating Alzheimer's disease.
USF scientists "were able to look both at the idea of treatment giving caffeine to animals that have already developed pathology as well as prevention," said Neil Buckholtz, chief of the dementias of aging branch of the National Institute on Aging. "It's really interesting."
So should you binge on latte or invest in Starbucks?
No way, Buckholtz and others cautioned.
"Lots of things have proven effective in mouse models but very few have been tested in humans," he said. "That's the gold standard, to see how this translates to humans."
The caffeine study, described in today's online version of the Journal of Alzheimer's Disease, was performed on mice genetically engineered to develop high levels of beta-amyloid, a protein associated with Alzheimer's in human brains.
Such mice typically start showing cognitive decline and elevated beta-amyloid levels by 8 or 9 months of age.
As they grow older, they also develop sticky clumps of amyloid plaque in their brains, another sign of human Alzheimer's.
Three years ago, the USF group showed that putting the mice on a high-caffeine diet soon after birth seems to prevent or delay these symptoms.
The latest experiments were aimed at treatment.
The mice received no caffeine until they were 18 to 19 months old, the human equivalent of about 70.
By then, the mice had progressed well into their dementia. Beta-amyloid levels were high, protein clumps had developed in their brains, and they performed poorly on memory tests.
For four or five weeks, some of the mice received pure caffeine in their drinking water, equivalent to 500 milligrams a day in an average human. That's what you would get in about five 8-ounce cups of regular coffee or 14 12-ounce cans of Coke Classic.
Control mice drank straight water.
Then all the mice went swimming.
In water mazes, mice swim around until they discover a comforting underwater platform that allows them to stand up and rest. Researchers return them to the water and watch how quickly they navigate their way back to the platform.
Normal mice with good memories find the platform without too many bad turns. A demented mouse struggles to learn.
In the USF study, demented mice fed straight water took more than twice as many bad turns as normal mice did.
