Infection with seasonal flu may increase risk of developing Parkinson's disease
Thomas Jefferson University News Jun 14, 2017
Most cases of ParkinsonÂs have no known cause, and researchers continue to debate and study possible factors that may contribute to the disease. Research reported in the journal ParkinsonÂs Disease suggests that a certain strain of influenza virus predisposes mice to developing pathologies that mimic those seen in ParkinsonÂs disease.
ÂThis study has provided more evidence to support the idea that environmental factors, including influenza may be involved in ParkinsonÂs disease, says Richard J. Smeyne, PhD, Professor of Neuroscience in the Sidney Kimmel Medical College at Thomas Jefferson University and Director of the Jefferson ParkinsonÂs Disease Center in the Vickie and Jack Farber Institute for Neuroscience. ÂHere we demonstrate that even mice who fully recover from the H1N1 influenza virus responsible for the previous pandemic are later more susceptible to chemical toxins known to trigger ParkinsonÂs in the lab.Â
Previously, Dr. Smeyne and his collaborator Dr. Stacey Schultz–Cherry in the Department of Infectious Disease at St. Jude ChildrenÂs Research Hospital in Memphis, TN, showed that a deadly H5N1 strain of influenza (so–called Bird Flu) that has a high mortality rate (60 percent of those infected died from the disease) was able to infect nerve cells, travel to the brain, and cause inflammation that, the researchers showed, would later result in ParkinsonÂs–like symptoms in mice. Inflammation in the brain that does not resolve appropriately, such as after traumatic injury to head, has also been linked to ParkinsonÂs.
Building on that work, the current paper looked at a less lethal strain, the H1N1 Âswine flu, that does not infect neurons, but which, the researchers showed, still caused inflammation in the brain via inflammatory chemicals or cytokines released by immune cells involved in fighting the infection.
Using a model of ParkinsonÂs disease in which the toxin MPTP, made famous in book ÂThe Case of the Frozen AddictsÂ, induces ParkinsonÂs–like symptoms in humans and mice, Dr. Smeyne showed that mice infected with H1N1, even long after the initial infection, had more severe ParkinsonÂs symptoms than those who had not been infected with the flu. Importantly, when mice were vaccinated against the H1N1, or were given antiviral medications such as Tamiflu at the time of flu infection, the increased sensitivity to MPTP was eliminated.
ÂThe H1N1 virus that we studied belongs to the family of Type A influenzas, which we are exposed to on a yearly basis, says Dr. Smeyne. ÂAlthough the work presented here has yet to be replicated in humans, we believe it provides good reason to investigate this relationship further in light of the simple and potentially powerful impact that seasonal flu vaccination could have on long–term brain health.Â
The article is titled, ÂSynergistic effects of influenza and 1–methyl–4–phenyl–1,2,3,6–tetrahydropyridine (MPTP) can be eliminated by the use of influenza therapeutics: experimental evidence for multi–hit hypothesis."
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ÂThis study has provided more evidence to support the idea that environmental factors, including influenza may be involved in ParkinsonÂs disease, says Richard J. Smeyne, PhD, Professor of Neuroscience in the Sidney Kimmel Medical College at Thomas Jefferson University and Director of the Jefferson ParkinsonÂs Disease Center in the Vickie and Jack Farber Institute for Neuroscience. ÂHere we demonstrate that even mice who fully recover from the H1N1 influenza virus responsible for the previous pandemic are later more susceptible to chemical toxins known to trigger ParkinsonÂs in the lab.Â
Previously, Dr. Smeyne and his collaborator Dr. Stacey Schultz–Cherry in the Department of Infectious Disease at St. Jude ChildrenÂs Research Hospital in Memphis, TN, showed that a deadly H5N1 strain of influenza (so–called Bird Flu) that has a high mortality rate (60 percent of those infected died from the disease) was able to infect nerve cells, travel to the brain, and cause inflammation that, the researchers showed, would later result in ParkinsonÂs–like symptoms in mice. Inflammation in the brain that does not resolve appropriately, such as after traumatic injury to head, has also been linked to ParkinsonÂs.
Building on that work, the current paper looked at a less lethal strain, the H1N1 Âswine flu, that does not infect neurons, but which, the researchers showed, still caused inflammation in the brain via inflammatory chemicals or cytokines released by immune cells involved in fighting the infection.
Using a model of ParkinsonÂs disease in which the toxin MPTP, made famous in book ÂThe Case of the Frozen AddictsÂ, induces ParkinsonÂs–like symptoms in humans and mice, Dr. Smeyne showed that mice infected with H1N1, even long after the initial infection, had more severe ParkinsonÂs symptoms than those who had not been infected with the flu. Importantly, when mice were vaccinated against the H1N1, or were given antiviral medications such as Tamiflu at the time of flu infection, the increased sensitivity to MPTP was eliminated.
ÂThe H1N1 virus that we studied belongs to the family of Type A influenzas, which we are exposed to on a yearly basis, says Dr. Smeyne. ÂAlthough the work presented here has yet to be replicated in humans, we believe it provides good reason to investigate this relationship further in light of the simple and potentially powerful impact that seasonal flu vaccination could have on long–term brain health.Â
The article is titled, ÂSynergistic effects of influenza and 1–methyl–4–phenyl–1,2,3,6–tetrahydropyridine (MPTP) can be eliminated by the use of influenza therapeutics: experimental evidence for multi–hit hypothesis."
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