OBJECTIVE: CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy), caused by dominant mutations in the NOTCH3 receptor, is the most aggressive small vessel disease of the brain. A key feature of its pathogenesis is accumulation of the extracellular domain of NOTCH3 receptor (Notch3ECD ) in small vessels, with formation of characteristic extracellular deposits termed granular osmiophilic material (GOM). Here, we investigated the therapeutic potential of a mouse monoclonal antibody (5E1) that specifically recognizes Notch3ECD . METHODS: The binding affinity of 5E1 toward purified NOTCH3 was assessed using Octet analysis. The ability of 5E1 to bind Notch3ECD deposits in brain vessels and its effects on disease-related phenotypes were evaluated in the CADASIL mouse model, which overexpresses a mutant rat NOTCH3. Notch3ECD and GOM deposition, white matter lesions, and cerebral blood flow deficits were assessed at treatment initiation (10 weeks) and study completion (30 weeks) using quantitative immunohistochemistry, electron microscopy, and laser-Doppler flowmetry. RESULTS: 5E1 antibody bound recombinant rat NOTCH3 with an average affinity of 317nM. A single peripheral injection of 5E1 robustly decorated Notch3ECD deposits in the brain vasculature. Chronic administration of 5E1 did not attenuate Notch3ECD or GOM deposition and was not associated with perivascular microglial activation. It also failed to halt the development of white matter lesions. Despite this, 5E1 treatment markedly protected against impaired cerebral blood flow responses to neural activity and topical application of vasodilators and normalized myogenic responses of cerebral arteries. INTERPRETATION: This study establishes immunotherapy targeting Notch3ECD as a new avenue for disease-modifying treatment in CADASIL that warrants further development. Ann Neurol 2018;84:246-259.
OBJECTIVE: CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy), caused by dominant mutations in the NOTCH3 receptor, is the most aggressive small vessel disease of the brain. A key feature of its pathogenesis is accumulation of the extracellular domain of NOTCH3 receptor (Notch3ECD ) in small vessels, with formation of characteristic extracellular deposits termed granular osmiophilic material (GOM). Here, we investigated the therapeutic potential of a mouse monoclonal antibody (5E1) that specifically recognizes Notch3ECD . METHODS: The binding affinity of 5E1 toward purified NOTCH3 was assessed using Octet analysis. The ability of 5E1 to bind Notch3ECD deposits in brain vessels and its effects on disease-related phenotypes were evaluated in the CADASIL mouse model, which overexpresses a mutant ratNOTCH3. Notch3ECD and GOM deposition, white matter lesions, and cerebral blood flow deficits were assessed at treatment initiation (10 weeks) and study completion (30 weeks) using quantitative immunohistochemistry, electron microscopy, and laser-Doppler flowmetry. RESULTS: 5E1 antibody bound recombinant ratNOTCH3 with an average affinity of 317nM. A single peripheral injection of 5E1 robustly decorated Notch3ECD deposits in the brain vasculature. Chronic administration of 5E1 did not attenuate Notch3ECD or GOM deposition and was not associated with perivascular microglial activation. It also failed to halt the development of white matter lesions. Despite this, 5E1 treatment markedly protected against impaired cerebral blood flow responses to neural activity and topical application of vasodilators and normalized myogenic responses of cerebral arteries. INTERPRETATION: This study establishes immunotherapy targeting Notch3ECD as a new avenue for disease-modifying treatment in CADASIL that warrants further development. Ann Neurol 2018;84:246-259.
Authors: A Bersano; M Kraemer; A Burlina; M Mancuso; J Finsterer; S Sacco; C Salvarani; L Caputi; H Chabriat; S Lesnik Oberstein; A Federico; E Tournier Lasserve; D Hunt; M Dichgans; M Arnold; S Debette; H S Markus Journal: J Neurol Date: 2020-04-21 Impact factor: 4.849
Authors: Kelly Z Young; Soo Jung Lee; Xiaojie Zhang; Naw May Pearl Cartee; Mauricio Torres; Simon G Keep; Sairisheel R Gabbireddy; Julia L Fontana; Ling Qi; Michael M Wang Journal: J Biol Chem Date: 2020-01-04 Impact factor: 5.157
Authors: Fumiaki Oka; Jeong Hyun Lee; Izumi Yuzawa; Mei Li; Daniel von Bornstaedt; Katharina Eikermann-Haerter; Tao Qin; David Y Chung; Homa Sadeghian; Jessica L Seidel; Takahiko Imai; Doga Vuralli; Rosangela M Platt; Mark T Nelson; Anne Joutel; Sava Sakadzic; Cenk Ayata Journal: J Clin Invest Date: 2022-04-15 Impact factor: 19.456
Authors: Hannah E Morris; Karla B Neves; Augusto C Montezano; Margaret R MacLean; Rhian M Touyz Journal: Clin Sci (Lond) Date: 2019-12-20 Impact factor: 6.124
Authors: Aleksandra Ekkert; Aleksandra Šliachtenko; Julija Grigaitė; Birutė Burnytė; Algirdas Utkus; Dalius Jatužis Journal: Genes (Basel) Date: 2021-12-24 Impact factor: 4.096