Dopamine receptor autoantibody signaling in infectious sequelae differentiates movement versus neuropsychiatric disorders
Chandra M. Menendez, Jonathan Zuccolo, Susan E. Swedo, Sean Reim, Brian Richmand, Hilla Ben-Pazi, Abraham Kovoor, Madeleine W. Cunningham
Chandra M. Menendez, Jonathan Zuccolo, Susan E. Swedo, Sean Reim, Brian Richmand, Hilla Ben-Pazi, Abraham Kovoor, Madeleine W. Cunningham
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Research Article Immunology

Dopamine receptor autoantibody signaling in infectious sequelae differentiates movement versus neuropsychiatric disorders

Abstract

Despite growing recognition, neuropsychiatric diseases associated with infections are a major unsolved problem worldwide. Group A streptococcal (GAS) infections can cause autoimmune sequelae characterized by movement disorders, such as Sydenham chorea, and neuropsychiatric disorders. The molecular mechanisms underlying these diseases are not fully understood. Our previous work demonstrates that autoantibodies (AAbs) can target dopaminergic neurons and increase dopamine D2 receptor (D2R) signaling. However, AAb influence on dopamine D1 receptor (D1R) activity is underexplored. We found evidence that suggests GAS-induced cross-reactive AAbs promote autoimmune encephalitis of the basal ganglia, a region of high dopamine receptor density. Here, we report a mechanism whereby neuropsychiatric syndromes are distinguished from movement disorders by differences in D1R and D2R AAb titers, signaling, receiver operating characteristic curves, and immunoreactivity with D1R and D2R autoreactive epitopes. D1R AAb signaling was observed through patient serum AAbs and novel patient-derived monoclonal antibodies (mAbs), which induced both D1R G protein– and β-arrestin–transduced signals. Furthermore, patient AAbs and mAbs enhanced D1R signaling mechanisms mediated by the neurotransmitter dopamine. Our findings suggest that AAb-mediated D1R signaling may contribute to the pathogenesis of neuropsychiatric sequelae and inform new options for diagnosis and treatment of GAS sequelae and related disorders.

Authors

Chandra M. Menendez, Jonathan Zuccolo, Susan E. Swedo, Sean Reim, Brian Richmand, Hilla Ben-Pazi, Abraham Kovoor, Madeleine W. Cunningham

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Figure 6

PANDAS sera activate D1R by agonist-induced increases in cAMP- and D1R-mediated β-arrestin recruitment.

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PANDAS sera activate D1R by agonist-induced increases in cAMP- and D1R-m...
(A) PANDAS serum–induced cellular cAMP concentrations from CHO-K1 cells transfected with either D1R cDNA or the empty vector (sera diluted 1:40). **P < 0.01 by Mann-Whitney U test. (B) PANDAS sera stimulated cAMP levels in stably expressed D1R (Tango D1-bla U2OS cells). ***P < 0.001 by Mann-Whitney U test. (C) D1R percentage increase in β-arrestin recruitment to D1R produced by SC (n = 6), PANDAS (n = 9), and control (n = 6) serum from Cohort 1. **P < 0.005 controls vs. PANDAS by 1-way ANOVA with Dunn’s post hoc test. (D) β-Arrestin recruitment to D1R stimulated by diluted PANDAS (n = 19) vs. controls (n = 7) from Cohort 2. **P < 0.005 by Mann-Whitney U test. β-Arrestin recruitment to D1R was assayed using the FRET-based TANGO GeneBLAzer GPCR assay system. Values are expressed as a percentage of the FRET signal in cells relative to vehicle. (E) Serum-mediated D1R signaling dose response (Tango GeneBLAzer GPCR Assay) showed a significant difference between PANDAS and healthy controls (mean nonlinear regression analysis, sum-of-squares F test). (F) D1R activation is shown by the dose-response curves of PANDAS sera added in combination with dopamine (red square or blue squares) compared to dopamine alone (depicted by black circles) in Tango D1-bla U2OS cells.