Case Study · Drug Repurposing · Rare Disease · CMT1A

SharkTooth Bio is using Urchin to identify off-patent compounds for Charcot-Marie-Tooth Disease Type 1A.

"There isn't much literature on CMT1A, so being able to bring in experimental data to seed the search was critical. Urchin's analysis led us to include a class of drugs for in vivo testing that we hadn't originally considered."

— David Apple, Founder and CEO, SharkTooth Bio

Context

CMT1A is an inherited peripheral neuropathy affecting approximately 1.6 million people worldwide. There are currently no approved treatments for CMT1A. SharkTooth Bio's mission is to create them — and they sought a fast, capital-efficient path through drug repurposing, pursuing off-patent compounds while simultaneously investing in longer-term, new modalities.

The Challenge

Rare disease therapeutic development is constrained by sparse literature, fragmented evidence, and limited mechanistic understanding. Conventional AI tools trained on well-characterized disease biology offer limited utility in this setting.

What Urchin Did

Urchin integrated SharkTooth's proprietary time-series RNA-sequencing data from CMT1A mouse models with a broad array of public evidence: literature, pathway and functional annotations, genetics and disease databases, pharmacology and compound datasets, and high-throughput screening data.

From that integrated evidence base, Urchin produced six categories of output:

  1. Pathway-level mechanistic analyses: reconstructing disease-relevant pathways and perturbed biology
  2. Prioritized therapeutic hypotheses: identifying biologically actionable intervention points and mechanisms
  3. Compound nomination and rationale: nominating compounds and drug classes with mechanistic justifications
  4. Analogue exploration: exploring structural analogues to identify compounds with potentially improved safety or pharmacologic profiles
  5. Transcriptomic integration: using RNA-seq evidence to refine mechanisms and prioritize interventions
  6. In vivo design support: informing dosing strategies and experimental design considerations

Impact

Urchin's analysis surfaced a drug class that SharkTooth's scientific advisors had not originally prioritized, expanded the set of experimentally testable hypotheses, and directly informed the selection and dosing of 19 compounds now undergoing in vivo testing.

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