https://doi.org/10.55788/54417a4f
The pathogenesis of neuroPASC remains unclear. The current study concentrated on the role of the patient’s antibodies and innate immune response in the mechanisms of neuroPASC [1]. Using the serum of SARS-CoV2-infected patients who did or did not develop neuroPASC, a systems serology approach enabled unbiased in-depth profiling of antibody responses against SARS-CoV-2 and other viruses (including non-Coronaviruses). Among those patients who did not develop neuroPASC, the researchers compared serum and antibody responses to identify factors predictive of good versus bad neurological outcomes.
Of 112 patients with a SARS-CoV2-infection, 18 developed neuroPASC. In patients with neuroPASC, all antibody isotypes/subclasses were detected in the serum, whereas the CSF was mainly populated with SARS-CoV2-specific antibodies (IgG), and IgM antibodies were absent. This suggests a sieve and selective transfer of antibodies across the blood-brain barrier and compartmentalised humoral responses within the CSF rather than intrathecal synthesis.
Overall, patients with neuroPASC showed a lower systemic antibody response against SARS-CoV-2 than non-neuroPASC controls. In contrast, antibody responses to Epstein-Barr virus, influenza virus, or herpes simplex virus type 1 were not different between groups. Surprisingly, there were expanded antibody responses to other common Coronaviruses in the neuroPASC group, suggesting a phenomenon referred to as the ‘original antigenic sin’ or immunological imprinting. This phenomenon occurs when prior exposure to an antigen shapes the subsequent (suboptimal) immune response to a related antigen.
This skewed humoral response was selectively enriched in the patients with neuroPASC and poor outcomes, suggesting that the original antigenic sin effect may serve as a prognostic biomarker for neuroPASC. Mechanistically, this skewed antibody activation may reduce viral clearance and increase neuro-inflammation, contributing to neurological symptoms.
- Spatola M. Serum and cerebrospinal fluid antibody signatures track with outcome of neurologic post-acute sequelae of SARS-Cov-2 infection (NeuroPASC). S21.006, AAN 2023 Annual Meeting, 22–27 April, Boston, USA.
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Table of Contents: AAN 2023
Featured articles
Letter from the Editor
Positive results for hereditary transthyretin-mediated amyloid polyneuropathy
Infectious Diseases
Allogenic T-cell-based immunotherapy for PML in development
Cognitive Impairment and Dementia
Lecanemab may slow decline of cognition and function in Alzheimer’s Disease
Donanemab shows rapid and deep plaque clearance in early Alzheimer’s Disease
Epilepsy
Seizure forecasting and detection with wearable devices are feasible
Encouraging first results of GABAergic interneurons implants for focal epilepsy
Headache and Migraine
Lecture on migraine: from the prodromal phase to future paradigm shifts
Zavegepant nasal spray exhibits good efficacy and safety in acute migraine
A vaccine as a potentially safe and effective immunotherapy against CGRP
Multiple Sclerosis
Teriflunomide prevents conversion to MS in patients with RIS
Gold nanocrystals may be effective as adjunctive MS therapy
Muscle and Neuro-Muscular Disorders
First-ever ALS platform trial reports on outcomes of 4 treatments
Pridopidine for Huntington’s disease fails to meet the primary endpoint
Parkinson's Disease
Continuous levodopa/carbidopa infusion shows favourable safety and efficacy
Unilateral right STN-DBS improves verbal fluency
Stroke
Harnessing the microbiome as a possible stroke treatment
Patients with a large core infarct benefit from thrombectomy
Miscellaneous
Artificial intelligence applications in neurology: seize the moment
Spinal cord stimulation eases painful diabetic neuropathy
EVT improves functional outcomes in Chinese patients with BAO
Severe sleep apnoea associated with white matter hyperintensities
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