Pathway-Guide: A novel tool for the analysis of signaling and metabolic pathways

Period of Performance: 06/01/2012 - 05/31/2013


Phase 2 STTR

Recipient Firm

Advaita Corporation
46099 Five mile Road Array
Plymouth, MI 48170
Principal Investigator


DESCRIPTION (provided by applicant): Once heralded as the Holy Grail, the capability of obtaining a comprehensive list of genes, proteins or metabolites that are different between disease and normal is routine today. And yet, the holy grail of high-throughput has not delivered so far. Even though such high-throughput comparisons have become relatively easy to perform, understanding the phenomena that cause the disease is as challenging as ever, if not more so. Signaling and metabolic pathways are complex graphs describing genes signaling and biochemical reactions that take place in various subsystems of the organism. The current methods that aim to help us understand the underlying biological phenomena by using the measured differences to identify significantly impacted pathways are rather unsophisticated. Many if not all such methods of- ten treat the pathways as simple sets of genes, and either ignore or under-utilize the very essence of such pathways: the graphs that describe the complex ways in which genes interact with each other. We are proposing the development of a software product for the analysis of gene signaling and metabolic pathways in the context of high throughput data, such as DNA microarrays. The fundamentals of the approach have been tested through the implementation of tools available for free from the PI's academic web site. These tools have an existing user base of 11,266 registered users who already use and trust our software. This user-base constitutes a unique asset for Advaita. The product we envisage will have a number of unique capabilities including the ability to: i) take into consideration the interactions between specific genes;ii) calculate a unique "impact factor" that characterizes how impacted a given subsystem of the organism is in the given condition;iii) find the mechanisms of action for diseases and drugs;iv) pinpoint potential points of optimal therapeutic intervention;and v) detect qualitative changes in a living organism by monitoring a large number of parameters (gene expression levels, metabolites, etc.). This product has the potential to: i) shorten the drug development cycle by providing fewer but better drug candidates, ii) help with the understanding of disease and drug mechanisms, iii) detect qualitative changes in biological organisms. The scientific validity of this analysis approach has been verified on real data in a number of applications (several published, others described here as preliminary results). The technical feasibility was demonstrated in over 36,000 benchmark trials. The commercial validity of this product has been verified by implementing a proto- type including the first 2 of the capabilities above. This prototype was already sold to 3 customers in spite of the fact that it only implements a small subset of the final set of capabilities and in spite of the fact that these customers already had access to the software products offered by our competition.