Webinar

The Potential of RNA Therapies in Autism Spectrum Disorder

In this webinar, Dr Rodney Bowling, Everlum Bio and Dr Malathi Raman offer an expert discussion on how the screening of antisense oligonucleotide (ASO) based RNA therapeutics using highly pure, consistent and scalable precision reprogrammed hiPSC-derived GABAergic neurons is accelerating novel personalised therapies for rare autism spectrum disorders (ASD).
Explore ioGABAergic Neurons
The Potential of RNA Therapies in Autism Spectrum Disorder

Rodney A. Bowling Jr., Ph.D.

Chief Scientific Officer

Everlum Bio

The Potential of RNA Therapies in Autism Spectrum Disorder

Malathi Raman, PhD

Senior Product Manager

bit.bio

In this webinar, Dr Rodney Bowling, Everlum Bio and Dr Malathi Raman offer an expert discussion on how the screening of antisense oligonucleotide (ASO) based RNA therapeutics using highly pure, consistent and scalable precision reprogrammed hiPSC-derived GABAergic neurons is accelerating novel personalised therapies for rare autism spectrum disorders (ASD).
The Potential of RNA Therapies in Autism Spectrum Disorder

Rodney A. Bowling Jr., Ph.D.

Chief Scientific Officer

Everlum Bio

The Potential of RNA Therapies in Autism Spectrum Disorder

Malathi Raman, PhD

Senior Product Manager

bit.bio

Hear from drug development expert, Dr Rodney Bowling (Everlum Bio), to learn how new GABAergic neuronal models are advancing the screening of antisense oligonucleotide (ASO)-mediated RNA therapies for rare autism spectrum disorders (ASD) affecting children.

ASOs have significant potential for neurological disorders as they target specific RNA sequences, either to block the translation of disease-causing proteins or to encourage the production of therapeutic proteins. Human iPSC-derived GABAergic neurons offer a useful physiologically-relevant system to investigate ASO efficiency, but their generation is hindered by heterogeneous populations and lot-to-lot inconsistencies. 

Dr Raman (bit.bio) shares how ioGABAergic Neurons, a new class of precision reprogrammed hiPSC-derived cells, overcomes these limitations, yielding highly pure, consistent and functional populations of mature human iPSC-derived inhibitory GABAergic neurons. Dr Bowling explores how this new class of inhibitory neurons are being applied within ASO-based screening assays and drug discovery workflows for rare ASD.

Learning outcomes: 

  • Discover how ASOs can be used to discover and develop drugs for rare ASD affecting children
    Learn about the need for a consistent, physiologically-relevant and scalable in vitro cellular screening model to identify optimal ASOs for an RNA target for ASD
  • Explore the design considerations for building optimal ASOs, including modifications to improve ASO binding affinity and effectiveness
  • Learn how precision reprogrammed hiPSC-derived ioGABAergic neurons are being applied within ASO screens to discover personalised oligonucleotide-based therapies for rare ASD

 

Explore ioGABAergic Neurons

 

 

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