Spectrum of Novel Anti-Central Nervous System Autoantibodies in the Cerebrospinal Fluid of 119 Patients With Schizophreniform and Affective Disorders.

BACKGROUND: Autoimmune psychosis may be caused by well-characterized anti-neuronal autoantibodies, such as those against the NMDA receptor. However, the presence of additional anti-central nervous system (CNS) autoantibodies in these patients has not been systematically assessed. METHODS: Serum and cerebrospinal fluid (CSF) from patients with schizophreniform and affective syndromes were analyzed for immunoglobulin G anti-CNS autoantibodies using tissue-based assays with indirect immunofluorescence on unfixed murine brain tissue as part of an extended routine clinical practice. After an initial assessment of patients with red flags for autoimmune psychosis (n = 30), tissue-based testing was extended to a routine procedure (n = 89). RESULTS: Based on the findings from all 119 patients, anti-CNS immunoglobulin G autoantibodies against brain tissue were detected in 18% (n = 22) of patients (serum 9%, CSF 18%) following five principal patterns: 1) against vascular structures, most likely endothelial cells (serum 3%, CSF 8%); 2) against granule cells in the cerebellum and/or hippocampus (serum 4%, CSF 6%); 3) against myelinated fibers (serum 2%, CSF 2%); 4) against cerebellar Purkinje cells (serum 0%, CSF 2%); and 5) against astrocytes (serum 1%, CSF 1%). The patients with novel anti-CNS autoantibodies showed increased albumin quotients (p = .026) and white matter changes (p = .020) more frequently than those who tested negative for autoantibodies. CONCLUSIONS: The study demonstrates five novel autoantibody-binding patterns on brain tissue of patients with schizophreniform and affective syndromes. CSF yielded positive findings more frequently than serum analysis. The frequency and spectrum of autoantibodies in these patient groups may be broader than previously thought.

A role for pathogen risk factors and autoimmunity in encephalitis lethargica?

The encephalitis lethargica (EL) epidemic swept the world from 1916 to 1926 and is estimated to have afflicted between 80,000 to one million people. EL is an unusual neurological illness that causes profound sleep disorders, devastating neurological sequalae and, in many cases, death. Though uncommon, EL is still occasionally diagnosed today when a patient presents with an acute or subacute encephalitic illness, where all other known causes of encephalitis have been excluded and criteria for EL are met. However, it is impossible to know whether recent cases of EL-like syndromes result from the same disease that caused the epidemic. After more than 100 years of research into potential pathogen triggers and the role of autoimmune processes, the aetiology of EL remains unknown. The epidemic approximately coincided with the 1918 H1N1 influenza pandemic but the evidence of a causal link is inconclusive. This article reviews the literature on the causes of EL with a focus on autoimmune mechanisms. In light of the current pandemic, we also consider the parallels between the EL epidemic and neurological manifestations of COVID-19. Understanding how pathogens and autoimmune processes can affect the brain may well help us understand the conundrum of EL and, more importantly, will guide the treatment of patients with suspected COVID-19-related neurological disease, as well as prepare us for any future epidemic of a neurological illness.