Due to the pressure of other commitments, I only had the pleasure of attending the annual meeting of the Association for Research in Vision and Ophthalmology (ARVO) for two days, but one of my key take home messages from the meeting is how we can use the eye as a window into the brain.  This is particularly relevant to Alzheimer’s research.

ARVO researchers at a lunchtime workshop that I attended asked the question of what can we learn from shared disease mechanisms in age-related macular degeneration (AMD), Alzheimer’s Disease (AD) and Glaucoma to devise therapies of the future?

What I learnt in the introduction by Nicholas Bazan from LSU Health Sciences is that both AD and AMD are both multifactorial, genetically complex, progressive, late-onset neurodegenerative conditions.  Common features include:

  1. Age-related neurodegeneration
  2. Amyloid precursor protein mis-processing
  3. Non-resolving inflammatory response
  4. Selective apoptotic cell death

Researchers in the workshop presented early experimental findings.

Catherine Bowes Rickman from Duke presented data that showed anti-amyloid immunotherapy blocks retinal pigment epithelium (RPE) damage and visual function defects in an AMD-like mouse model.  Interesting questions were raised as to whether mouse Aß aggregates differently to human, so is this a good model?

Adriana Di Polo from the University of Montreal discussed Glaucoma and AD: common neurodegenerative pathways and therapeutic targets. It was interesting to note that high rates of visual abnormalities, including glaucoma, have been reported in AD patients, but causality has not been established. Neuronal loss in both glaucoma and alzheimer’s disease occurs via common cell death processes including altered metabolism of Amyloid Precursor Protein (APP) and Aß.

What Di Polo highlighted in her talk was the potential to use therapies effective in one disease to treat the other e.g. galantamine is approved for treatment of mild to moderate AD symptoms.  Because it crosses the retinal-brain barrier and has high bioavailability, she presented results using this in an animal model of glaucoma.

Her conclusion was that “therapeutic modalities that promote neuroprotection in AD may be useful in glaucoma and vice versa.”

The third speaker of this fascinating workshop was Ian Trounce from Melbourne, who challenged the Amyloid theory of AD. His hypothesis was that sAPPα may trigger oxidative stress in mitochondria and be the problem. He discussed the increasing acceptance/overlap in pathologies between Parkinson’s and AD.  He presented data that sAPPα overexpression protects retinal ganglion cells (RGC) from rotenone via PI3K-AKT activation.

Critical feedback on the three presentations was provided by Guy Eakin of the American Health Assistance Foundation (AHAF) and Imre Lengyel from UCL.

As Dr Lengyel succinctly notes in his UCL Institute of Ophthalmology bio:

“It appears that the development of age related macular degeneration (AMD) and Alzheimer’s disease (AD) share similar histopathology, vascular risk factors and genetic predisposition. In addition, the development of AMD appears to use similar or identical steps on the cellular and molecular levels to AD: vascular damage, oxidative stress, inflammation, extracellular protein and peptide degradation or deposition, and the role for lipids and trace elements (especially zinc) in the degenerative process are amongst the many common features. Furthermore, amyloid beta peptides are an integral part of drusen (the hallmark lesion in AMD) and their formation might be similar to plaque formation in AD.”

I applaud ARVO for looking at how the eye can be used as a window into the brain. It raises the intriguing prospect that research on AMD may not only help understand the cause of AD, but that the eye may serve as an experimental model for future new treatments. Collaboration between Opthalmology and Alzheimer’s researchers is something I expect and hope we will see more of.

 

Posted by