
Vaccines and Neurodegeneration: Lessons for Huntington’s Disease?
⏱️5 min read | Research suggests vaccines may reduce dementia risk by 20%. Infections cause inflammation and toxic byproducts that mitochondria normally clear. In HD, where mitochondria are impaired, vaccination is especially crucial.
A recent article in the scientific journal, Nature describes “A natural experiment on the effect of herpes zoster (shingles) vaccination on dementia”. This study makes similar conclusions to other studies worldwide, and was based on a regulatory phenomenon in Wales, UK, in which depending on a precise birth date in 1933, people could receive a free herpes zoster (shingles) vaccine, or not, even with birthdays a week apart from each other. This led to two very distinct groups of people who were about the same age: almost all vaccinated versus almost none vaccinated. Then a simple question was asked…
Is there any difference in dementia incidence between these two groups of people?
The answer was a clear yes, by 20%, and the predominant effect was in women, a component that is not understood yet. Incredibly, this would make the shingles vaccine more effective at reducing Alzheimer’s disease incidence than any recent FDA-approved drug. But why? Does shingles cause Alzheimer’s? What about other common vaccines? Do they have any effect?
This question has been asked in so many studies worldwide, it’s best at this point to refer to analysis of many studies, or meta-analyses, which compare all the data on an even ground. The conclusion across many studies is similar: influenza, pneumonia, as well as tetanus, diphtheria, pertussis (dTAP) vaccines all reduce risk of developing Alzheimer’s and the more broadly defined dementia.
So, if it’s not any one virus, or bacteria, then how can so many different types of infection contribute to neurodegenerationneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons)? And how do vaccines reduce the risk of developing these brain diseases?

Vaccines can help even after infection
Chicken pox infections took place in most children prior to the common use of varicella vaccine in the late 90s. While people were told for decades that they cannot get the virus again, the reality is that their immune systems learned how to control the virus for the rest of their lives. The virus never goes away, and it remains dormant in the nervous system.
If there is a period of an immune compromising event, like illness, aging, or chemotherapy, people can see the zoster virus re-activate leading to the condition of shingles, which is painful because the virus is in sensory neuronsneuron Brain cells that store and transmit information and in skin. So the best advice for those infected once with chicken pox is to take the two dose vaccine later in life to prevent shingles by keeping the immune system primed to control the virus.
But is this relevant to HD?
These studies aren’t just about dementia. As well, there are observed lower incidences of Parkinson’s disease in those who were vaccinated. There has been a classic connection between influenza infections and onset of Amyotrophic Lateral Sclerosis (ALS), also known as Lou Gehrig’s disease, another progressive neurodegenerativeneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons) disease with genetic origins that is often seen triggered by something called a “redox imbalance.”
A redox imbalance refers to high levels of toxic byproducts of cellular metabolismmetabolism The process of cells taking in nutrients and turning them into energy and building blocks to build and repair cells., called reactive oxygen species (ROS), reactive sulfur species (RSS), or reactive nitrogen species, that are essentially the pollution in cells as a result of burning energy. It’s in these toxic reactive byproducts that lies the clues to the efficacyefficacy A measure of whether a treatment works or not of vaccines against neurodegenerationneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons).
The response to infections, most infections, is inflammationinflammation Activation of the immune system, thought to be involved in the HD disease process, where the soldiers of the immune system can use potent blasts of ROS to wipe out bacteria and viruses. In the aftermath, in young, healthy people, the brain’s cellular powerhouse (the mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function) can clean up those reactive byproducts and allow recovery from inflammationinflammation Activation of the immune system, thought to be involved in the HD disease process.
However, two events can prevent this response to bacterial or viral invaders from happening in people: 1) an underlying genetic disease, such as HD, which is known to affect mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function, 2) and/or human ageing, as all humans lose mitochondrial efficiency with age. This impact on mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function lowers their ability to lower ROS.
In HD, particularly later in life, we have both situations, which makes inflammationinflammation Activation of the immune system, thought to be involved in the HD disease process, like that caused by infections, dangerous. It’s particularly a problem in the brain because brain cells are very active, burning a tremendous amount of energy, even at rest, and a byproduct of all that burning is ROS.

The take home message
While there is no vaccine that is claiming to prevent neurodegenerationneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons), these correlations between vaccination and lower disease risk may be important. At this point, there are not published studies on the protective effect of vaccines in HD and this information is not yet captured in the ENROLL-HD study.
However, it is prudent to suggest that those with HD or those who are gene carriers avoid any viral or bacterial infections through the use of vaccines and good hygiene habits we were all reminded of during the onset of COVID-19.
Summary
- Multiple vaccines (shingles, flu, pneumonia, dTAP) are associated with 20% reduced dementia risk, which data suggests is more effective than recent Alzheimer’s drugs
- Effects are seen across Alzheimer’s, other dementias, and Parkinson’s disease
- Infections trigger inflammationinflammation Activation of the immune system, thought to be involved in the HD disease process and produce toxic cellular byproducts (like reactive oxygen species) that healthy mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function normally clear
- In HD, mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function are already impaired and struggle to handle inflammationinflammation Activation of the immune system, thought to be involved in the HD disease process from infections
- Aging also reduces mitochondrial efficiency, creating double risk for people with HD later in life
- Brain cells are especially vulnerable due to high energy use and resulting toxic byproduct production
- Bottom line for HD community: Stay current on vaccines and practice good hygiene to avoid infections that could stress already-compromised mitochondriamitochondria tiny machines inside our cells that process fuel into energy, enabling cells to function
Acknowledgments
We thank Dr. Dr. Caitlyn Mullarkey, Dr. Matthew Miller, and Dr. Dawn Bowdish from McMaster University in Hamilton, Canada for their input on this article.
Note: This article was edited on January 17 to correct that McMaster is in Hamilton, not Toronto.
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