nonresponders in a subgroup consisting only of patients within the same migraine phases (visit 1 and visit 2 either with or without headache, n=15; eight responders), we found a responder-specific decrease in BOLD activity in central areas such as the inferior parietal lobule/operculum, the left insula, the parahippocampal gyrus, as well as the hypothalamus (Figure 2B, Table 2B)

nonresponders in a subgroup consisting only of patients within the same migraine phases (visit 1 and visit 2 either with or without headache, n=15; eight responders), we found a responder-specific decrease in BOLD activity in central areas such as the inferior parietal lobule/operculum, the left insula, the parahippocampal gyrus, as well as the hypothalamus (Figure 2B, Table 2B). galcanezumab would alter Dimethocaine central trigeminal pain processing; (ii) responders to galcanezumab treatment would show specific hypothalamic modulation in contrast to non-responders; Dimethocaine and (iii) the ligand and the receptor antibody differ in brain responses. Methods: Using an established trigeminal nociceptive functional magnetic imaging paradigm, 26 migraine patients were subsequently scanned twice: before and 2C3 weeks after administration of galcanezumab. Results: We found that galcanezumab decreases hypothalamic activation in all patients and that the reduction was stronger in responders than in non-responders. Contrasting erenumab and galcanezumab showed that both antibodies activate a distinct network. We also found that pre-treatment activity of the spinal trigeminal nucleus (STN) and coupling between the STN and the hypothalamus covariates with the response to galcanezumab. Conclusions: These data suggest that despite relative impermeability of the blood-brain barrier for CGRP mAb, mAb treatment induces certain and highly specific brain effects which may be part of the mechanism of their efficacy in migraine treatment. Funding: This work was supported by the German Ministry of Education and Research (BMBF) of ERA-Net Neuron under the project code BIOMIGA (01EW2002 to AM) and by the German Research Foundation (SFB936-178316478-A5 to AM). The funding sources did not influence study conduction in any way. Clinical Dimethocaine trial number: The basic science study was preregistered in the Open Science Framework (https://osf.io/m2rc6). Research organism: Human Introduction Since the introduction of the new generation of migraine-specific drugs, the monoclonal antibodies (mAbs) against the calcitonin gene-related peptide (CGRP-L-mAb) and its receptor (CGRP-R-mAb), their exact mode of action has been intensely studied. Whereas a central site of action is, due to limited permeability of the blood-brain barrier for large molecules, considered to be of minor relevance (Johnson et al., 2019), it is predominantly thought that CGRP mAb act peripherally by modulating the interaction between C-type and A-type sensory neurons in the trigeminal ganglion and trigeminal nerve fibers (Edvinsson et al., 2018; Edvinsson et Dimethocaine al., 2019), and that CGRP mAb may block CGRP responses in the dura mater (Edvinsson et al., 2018; Melo-Carrillo et al., 2017; Edvinsson, 2017). In our recent study in migraine patients, Dimethocaine we demonstrated that administration of the CGRP mAb erenumab results in a diminished activation of the thalamus, the insular cortex, the periaqueductal gray, and the secondary somatosensory cortex. Only responders showed less activation in the hypothalamus whereas non-responders did not, which suggests that CGRP mAb CACNA2D4 have direct or indirect central effects (Ziegeler et al., 2020). The mode of action may however differ between different CGRP mAbs (Ziegeler and May, 2020). We focused on this question and studied 26 migraine patients before and after administration of the CGRP mAb galcanezumab using the same event-related functional magnetic resonance imaging (fMRI) and trigeminal nociceptive paradigm that we have used in the erenumab study (Stankewitz et al., 2010; Schulte et al., 2016). Given the results of the erenumab study, we hypothesized that (i) galcanezumab would alter central trigeminal pain processing in migraine patients, (ii) responders to galcanezumab treatment would show specific hypothalamic modulation in contrast to non-responders. We preregistered the study and the hypothesis (https://osf.io/m2rc6). Materials and methods Preregistration This study was preregistered on May 12, 2020 (title Galcanezumab in the migraine brain C fMRI) on the Open Science Framework (https://osf.io/m2rc6). Patient consent The study was approved by the local ethics committee in Hamburg, Germany (PV 5964) and was conducted in accordance with the Declaration of Helsinki. Written informed consent was obtained before initiation of the first study session. Individuals could discontinue the analysis in any ideal period. Patients Participants had been recruited by headaches specialists.