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Melanopsin retinal ganglion cell loss in Alzheimer disease.

  • Author(s): La Morgia, Chiara
  • Ross-Cisneros, Fred N
  • Koronyo, Yosef
  • Hannibal, Jens
  • Gallassi, Roberto
  • Cantalupo, Gaetano
  • Sambati, Luisa
  • Pan, Billy X
  • Tozer, Kevin R
  • Barboni, Piero
  • Provini, Federica
  • Avanzini, Pietro
  • Carbonelli, Michele
  • Pelosi, Annalisa
  • Chui, Helena
  • Liguori, Rocco
  • Baruzzi, Agostino
  • Koronyo-Hamaoui, Maya
  • Sadun, Alfredo A
  • Carelli, Valerio
  • et al.

Published Web Location

https://doi.org/10.1002/ana.24548
Abstract

Objective

Melanopsin retinal ganglion cells (mRGCs) are photoreceptors driving circadian photoentrainment, and circadian dysfunction characterizes Alzheimer disease (AD). We investigated mRGCs in AD, hypothesizing that they contribute to circadian dysfunction.

Methods

We assessed retinal nerve fiber layer (RNFL) thickness by optical coherence tomography (OCT) in 21 mild-moderate AD patients, and in a subgroup of 16 we evaluated rest-activity circadian rhythm by actigraphy. We studied postmortem mRGCs by immunohistochemistry in retinas, and axons in optic nerve cross-sections of 14 neuropathologically confirmed AD patients. We coimmunostained for retinal amyloid β (Aβ) deposition and melanopsin to locate mRGCs. All AD cohorts were compared with age-matched controls.

Results

We demonstrated an age-related optic neuropathy in AD by OCT, with a significant reduction of RNFL thickness (p = 0.038), more evident in the superior quadrant (p = 0.006). Axonal loss was confirmed in postmortem AD optic nerves. Abnormal circadian function characterized only a subgroup of AD patients. Sleep efficiency was significantly reduced in AD patients (p = 0.001). We also found a significant loss of mRGCs in postmortem AD retinal specimens (p = 0.003) across all ages and abnormal mRGC dendritic morphology and size (p = 0.003). In flat-mounted AD retinas, Aβ accumulation was remarkably evident inside and around mRGCs.

Interpretation

We show variable degrees of rest-activity circadian dysfunction in AD patients. We also demonstrate age-related loss of optic nerve axons and specifically mRGC loss and pathology in postmortem AD retinal specimens, associated with Aβ deposition. These results all support the concept that mRGC degeneration is a contributor to circadian rhythm dysfunction in AD.

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