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Selective PDE4 subtype inhibition provides new opportunities to intervene in neuroinflammatory versus myelin damaging hallmarks of multiple sclerosis

Authors :
Melissa Schepers
Dean Paes
Assia Tiane
Ben Rombaut
Elisabeth Piccart
Lieve van Veggel
Pascal Gervois
Esther Wolfs
Ivo Lambrichts
Chiara Brullo
Olga Bruno
Ernesto Fedele
Roberta Ricciarelli
Charles ffrench-Constant
Marie E. Bechler
Pauline van Schaik
Wia Baron
Evy Lefevere
Kobi Wasner
Anne Grünewald
Catherine Verfaillie
Paulien Baeten
Bieke Broux
Paul Wieringa
Niels Hellings
Jos Prickaerts
Tim Vanmierlo
Grunewald, Anne/0000-0002-4179-2994
SCHEPERS, Melissa
PAES, Dean
TIANE, Assia
ROMBAUT, Ben
PICCART, Elisabeth
VAN VEGGEL, Lieve
GERVOIS, Pascal
Brullo, Chiara
Bruno, Olga
Fedele, Ernesto
Ricciarelli, Roberta
Ffrench-Constant, Charles
Bechler, Marie E.
Schaik, Pauline van
WOLFS, Esther
LAMBRICHTS, Ivo
Baron, Wia
LEFEVERE, Evy
Wasner, Kobi
Gruenewald, Anne
Verfaillie, Catherine
Wieringa, Paul
Prickaerts, Jos
BROUX, Bieke
BAETEN, Paulien
HELLINGS, Niels
VANMIERLO, Tim
RS: MHeNs - R3 - Neuroscience
Basic Neuroscience 2
Basic Neuroscience 1
CTR
RS: MERLN - Complex Tissue Regeneration (CTR)
Psychiatrie & Neuropsychologie
Source :
Brain Behavior and Immunity, 109, 1-22. Elsevier Science
Publication Year :
2023

Abstract

Multiple sclerosis (MS) is a chronic autoimmune disease of the central nervous system (CNS) characterized by focal inflammatory lesions and prominent demyelination. Even though the currently available therapies are effective in treating the initial stages of disease, they are unable to halt or reverse disease progression into the chronic progressive stage. Thus far, no repair-inducing treatments are available for progressive MS patients. Hence, there is an urgent need for the development of new therapeutic strategies either targeting the destructive immunological demyelination or boosting endogenous repair mechanisms. Using in vitro, ex vivo, and in vivo models, we demonstrate that selective inhibition of phosphodiesterase 4 (PDE4), a family of enzymes that hydrolyzes and inactivates cyclic adenosine monophosphate (cAMP), reduces inflammation and promotes myelin repair. More specifically, we segregated the myelination-promoting and anti-inflammatory effects into a PDE4Dand PDE4B-dependent process respectively. We show that inhibition of PDE4D boosts oligodendrocyte progenitor cells (OPC) differentiation and enhances (re)myelination of both murine OPCs and human iPSC-derived OPCs. In addition, PDE4D inhibition promotes in vivo remyelination in the cuprizone model, which is accompanied by improved spatial memory and reduced visual evoked potential latency times. We further identified that PDE4B-specific inhibition exerts anti-inflammatory effects since it lowers in vitro monocytic nitric oxide (NO) production and improves in vivo neurological scores during the early phase of experimental autoimmune encephalomyelitis (EAE). In contrast to the pan PDE4 inhibitor roflumilast, the therapeutic dose of both the PDE4B-specific inhibitor A33 and the PDE4D-specific inhibitor Gebr32a did not trigger emesis-like side effects in rodents. Finally, we report distinct PDE4D isoform expression patterns in human area postrema neurons and human oligodendroglia lineage cells. Using the CRISPR-Cas9 system, we confirmed that pde4d1/2 and pde4d6 are the key targets to induce OPC differentiation. Collectively, these data demonstrate that gene specific PDE4 inhibitors have potential as novel therapeutic agents for targeting the distinct disease processes of MS. This work has been supported by FWO (12G0817N, 1S57521N, G041421N, and 12G0817N), Fondation Charctot Stichting (ID2020- 0019), Nationale Belgische Multiple Sclerose Liga (Charco18VT), MS Liga Vlaanderen and Stichting MS Research (18-1016 MS). MS, EP, JP and TV have a proprietary interest in selective PDE4D inhibitors for the treatment of demyelinating disorders and neurodegenerative disorders. JP has a proprietary interest in the PDE4 inhibitor roflumilast for the treatment of cognitive impairment as well as PDE4D inhibitors for the treatment of Alzheimer’s disease. We thank Prof. Dr. O.N. Viacheslav (University Medical Center Hamburg-Eppendorf, German Center for Cardiovascular Research) and Prof. Dr. M. Conti (University of California), for providing the PDE4B KO animals. Furthermore, we thank Rewind Therapeutics for providing the visual evoked potential equipment.

Details

Language :
English
ISSN :
08891591
Database :
OpenAIRE
Journal :
Brain Behavior and Immunity, 109, 1-22. Elsevier Science
Accession number :
edsair.doi.dedup.....b770c84050d1fd6b3d56d5c62397da38