Bruton's tyrosine kinase (BTK)

[Petr75]

2020 Jul 29
Azrieli Centre for Neuro-Radiochemistry, Brain Health Imaging Centre, Centre for Addiction and Mental Health & Department of Psychiatry, University of Toronto, Ontario, Canada
Radiosynthesis of a Bruton's tyrosine kinase inhibitor, [ 11 C] Tolebrutinib, via palladium-NiXantphos-mediated carbonylation
https://pubmed.ncbi.nlm.nih.gov/32726870/

Abstract

Bruton's tyrosine kinase (BTK) is a key component in the B-cell receptor signaling pathway and is consequently a target for in vivo imaging of B-cell malignancies as well as in multiple sclerosis (MS) with positron emission tomography (PET). A recent Phase 2b study with Sanofi's BTK inhibitor, Tolebrutinib (also known as [a.k.a.] SAR442168, PRN2246, or BTK'168) showed significantly reduced disease activity associated with MS. Herein, we report the radiosynthesis of [11 C]Tolebrutinib ([11 C]5) as a potential PET imaging agent for BTK. The N-[11 C]acrylamide moiety of [11 C]5 was labeled by 11 C-carbonylation starting from [11 C]CO, iodoethylene, and the secondary amine precursor via a novel palladium-NiXantphos-mediated carbonylation protocol, and the synthesis was fully automated using a commercial carbon-11 synthesis platform (TracerMaker™, Scansys Laboratorieteknik). [11 C]5 was obtained in a decay-corrected radiochemical yield of 37 ± 2% (n = 5, relative to starting [11 C]CO activity) in >99% radiochemical purity, with an average molar activity of 45 GBq/μmol (1200 mCi/μmol). We envision that this methodology will be generally applicable for the syntheses of labeled N-acrylamides.


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by frodo » Tue Jun 23, 2020 viewtopic.php?f=13&t=31528&p=259829&hil ... se#p259829

Sanofi https://www.sanofi.com/en/media-room/pr ... 6-07-00-00

[Petr75]

2020 Aug 6
Institute of Neuropathology, University Medical Center, Göttingen, Germany
Inhibition of Bruton's tyrosine kinase interferes with pathogenic B-cell development in inflammatory CNS demyelinating disease
https://pubmed.ncbi.nlm.nih.gov/32761407/

Abstract

Anti-CD20-mediated B-cell depletion effectively reduces acute multiple sclerosis (MS) flares. Recent data shows that antibody-mediated extinction of B cells as a lasting immune suppression, harbors the risk of developing humoral deficiencies over time. Accordingly, more selective, durable and reversible B-cell-directed MS therapies are needed. We here tested inhibition of Bruton's tyrosine kinase (BTK), an enzyme centrally involved in B-cell receptor signaling, as the most promising approach in this direction. Using mouse models of MS, we determined that evobrutinib, the first BTK inhibiting molecule being developed, dose-dependently inhibited antigen-triggered activation and maturation of B cells as well as their release of pro-inflammatory cytokines. Most importantly, evobrutinib treatment functionally impaired the capacity of B cells to act as antigen-presenting cells for the development of encephalitogenic T cells, resulting in a significantly reduced disease severity in mice. In contrast to anti-CD20, BTK inhibition silenced this key property of B cells in MS without impairing their frequency or functional integrity. In conjunction with a recent phase II trial reporting that evobrutinib is safe and effective in MS, our mechanistic data highlight therapeutic BTK inhibition as a landmark towards selectively interfering with MS-driving B-cell properties.

[Petr75]

2020 Aug 19
Institute of Neuropathology, University Medical Center , Göttingen, Germany
Inhibition of Bruton´s tyrosine kinase as a novel therapeutic approach in multiple sclerosis
https://pubmed.ncbi.nlm.nih.gov/32772592/

Abstract

Introduction: B cells have increasingly come under the spotlight as mediators of inflammatory central nervous system (CNS) demyelinating diseases such as multiple sclerosis (MS). B cell depletion via the targeting of the surface molecule CD20 has proven to be highly effective; however, continuous absence of an integral component of the immune system may cause safety concerns over time. Declining humoral competence and potential immune system impairments are key issues, and moreover, unselective removal of B cells reduces immune system control functions which should preferably be maintained in inflammatory CNS disease.

Areas covered: This paper illuminates the novel approach of specific interference with B cell signaling by targeting Bruton´s tyrosine kinase (BTK). We discuss the role of BTK within the B cell receptor (BCR) signaling cascade and BTK inhibition as a promising strategy to control inflammatory CNS disease which crucially excludes immune-cell depletion. We searched PubMed or clinicaltrials.gov for the terms 'BTK inhibition' or 'Bruton´s Tyrosine Kinase' or 'anti-CD20' and 'Multiple Sclerosis'.

Expert opinion: BTK inhibition has shown effectiveness in preclinical models of CNS disease and MS clinical trials. Further studies are necessary to differentiate this approach from B cell depletion and to position it in the armamentarium of therapeutics.