Combined detrimental effect of male sex and GBA1 variants on cognitive decline in Parkinson’s Disease

  1. Silvia Paola Caminiti
  2. Micol Avenali
  3. Alice Galli
  4. Rachele Malito
  5. Giada Cuconato
  6. Andrea Pilotto
  7. Alessandro Padovani
  8. Fabio Blandini
  9. Daniela Perani
  10. Cristina Tassorelli
  11. Enza Maria Valente
  12. Parkinson’s Progression Markers Initiative (PPMI)
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Abstract

Background and Objective

Heterozygous variants in the glucocerebrosidase gene ( GBA1 ) are the major genetic risk factor for Parkinson’s Disease (PD). GBA-PD has been associated with worse progression and higher risk of cognitive decline. Here we took advantage of the Parkinson’s Progression Markers Initiative (PPMI) to investigate whether sex could interact with GBA1 carrier status in determining the clinical phenotype, with a special focus on cognitive decline.

Methods

We evaluated 118 PD subjects carrying GBA1 variants (GBA-PD) and 450 with wild-type alleles (nonGBA-PD) included in the PPMI. Dopaminergic activity was assessed in a subset of 248 subjects (65%) with available 123 I-FP-CIT SPECT scans. Clinical features and dopaminergic activity were investigated in GBA-PD vs. nonGBA-PD groups, upon stratification by sex. PD subjects were followed for up to 6.5Dyears (median 6Dyears). Cox regression was used to model the hazard ratio (HR) of (1) GBA1 genotype, (2) sex, (3) gene-by-sex interaction on cognitive decline at follow-up.

Results

Regardless of genotype, men suffering from PD exhibited higher motor disability while women showed more autonomic dysfunction. At baseline, GBA-PD showed more severe motor and non-motor features, and reduced dopamine uptake in the bilateral ventral putamen compared to nonGBA-PD. Within the GBA-PD group, males had higher occurrence of REM sleep behavior disorder and memory deficits. Of note, GBA-PD females showed a greater striatal dopaminergic deficit compared to males, despite presenting similar motor impairment. In longitudinal assessment, Cox Regression revealed that male sex (HR = 1.7), GBA1 carrier status (HR =1.6) and, most importantly, GBA-by-male sex interaction (HR = 2.3) were significantly associated with a steeper cognitive decline. Upon stratification for GBA1 variant class, both “severe” and “mild” variants were associated with increased risk of cognitive decline, again more relevant in males (HR = 2.3).

Discussion

We show, for the first time, that male sex and GBA1 carrier status have an additive value in increasing the risk of cognitive decline in PD, despite the heightened dopaminergic vulnerability observed in GBA-PD females. The effect of sex on GBA1 -related pathology warrants further examination and should be considered in future trials design and patients’ selection.

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  1. Version published to 10.1101/2024.04.02.24305191v1 on medRxiv