| Name | Title | Contact Details |
|---|
OncoNano Medicine is developing a new class of pH-activated compounds that digitalize and exploit the variability of pH in disease.
Aruvant`s mission is to bring hope to patients living with rare diseases by developing life changing and potentially curative gene therapies, with a near-term focus on sickle cell disease. Aruvant is a part of the Roivant family of companies. We have a talented team with extensive experience in the development, manufacturing and commercialization of gene therapy products. We have an active research program with a lead product candidate in development for individuals suffering from sickle cell disease (SCD). Our lead product candidate, ARU-1801, an investigational lentiviral gene therapy, is currently in a clinical trial as a potential one-time curative treatment for SCD. Preliminary clinical data from the ongoing Phase 1/2 study demonstrated durable efficacy in reducing the negative impacts of SCD. We are preparing for the launch of our pivotal clinical trial in SCD. We continue to look for new people to add to our talented team.
Cogent Biosciences is a biotechnology company developing real solutions to treat genetically driven diseases. With a focus on rational drug discovery and development, we are leveraging validated biology to advance precision therapies designed to address the true underlying drivers of disease and provide real hope for patients. Cogent`s lead therapeutic candidate, PLX9486 (expected to be named CGT9486 in the future), is a precision kinase inhibitor designed to selectively and potently inhibit the KIT D816V mutation. This mutation is responsible for driving a rare and serious condition called Systemic Mastocytosis which can severely impact many different tissues and organs in the body. We are also studying PLX9486 to treat advanced gastrointestinal stromal tumors (GIST), which have a strong dependence on oncogenic KIT signaling.
BioLife Solutions is a leading supplier of cell and gene therapy bioproduction tools.
Our mission is to create a new generation of smarter medicines that outmaneuver complex diseases in ways previously inconceivable. To accomplish this mission, we are building a synthetic biology platform that could enable us to program next-generation cell and gene therapies with what we refer to as “gene circuits”. These gene circuits, which are created from novel and proprietary combinations of DNA sequences, are intended to reprogram cells with biological logic to sense inputs, compute decisions and respond to their cellular environments. We are designing gene circuits to improve the “intelligence” of cell and gene therapies in order to enhance their therapeutic effectiveness against a broad range of diseases that conventional medicines do not readily address.