A Two-Tier Effect-Based Water Bioactivity Surveillance System.
Attagene, Inc., Research Triangle Park NC
Investigators
Abstract
Title: A Two-Tier Effect-Based Water Bioactivity Surveillance System. ABSTRACT. Chemical polluÆon of water threatens public health worldwide, linked to ~1.4 million deaths/year. Man-made chemicals have surged from ~1,000 in 1900 to over 350,000 today, with annual producÆon exceeding 1,000 million metric tons. Many remain untested, complicaÆng water safety oversight. ConvenÆonal water tesÆng focuses on a few known contaminants, lacks biological context, and fails to capture the synergisÆc effects of complex mixtures. To address these gaps, we propose a two-Æer approachâWASANETâbuilt on Attageneâs FACTORIAL platiorm. The FACTORIAL assay quanÆtaÆvely measures mulÆple transcripÆon factor (TF) acÆviÆes, generaÆng an Aggregate Response Index (ARI) that reflects overall bioacÆvity of water samples. Validated under the U.S. EPA ToxCast program and recognized by a White House Tibbetts Award, this platiorm provides a uniform scale for comparing diverse water sources. Tier I emphasizes rapid, cost-effecÆve triage screening to idenÆfy âhot spotsâ via a high-throughput FACTORIAL ARI assay, enhanced with key xenobioÆc-metabolizing enzymes for broader detecÆon. Tier II combines targeted chemical analyses with the FACTORIAL assay to pinpoint the specific contaminants driving observed bioacÆvity, enabling more effecÆve remediaÆon strategies. SPECIFIC AIM 1: Build the infrastructure for Tier I water safety surveillance. 1A. Develop a single-step, high-throughput FACTORIAL ARI assay. 1B. Enhance metabolic capabiliÆes using criÆcal metabolic enzymes. 1C. Establish standardized workflows for sample handling and data management. SPECIFIC AIM 2: Develop Tier II methodology to idenÆfy the most impactiul pollutants. 2A. Integrate the FACTORIAL assay with chemical analyses to locate criÆcal contaminants. 2B. Validate Tier II using samples with known pollutant profiles. SPECIFIC AIM 3: Deploy a prototype WASANET system in collaboraÆon with water authoriÆes and researchers in CA, NC, and IA, evaluaÆng both environmental and residenÆal sources. By delivering quanÆtaÆve ARI scores, WASANET permits clear risk comparisons across sites and helps prioriÆze hotspots for in-depth invesÆgaÆon. IdenÆfying key toxicants further supports cost-effecÆve remediaÆon and targeted regulatory measures. This high-content strategy bridges criÆcal gaps in convenÆonal water tesÆng, providing acÆonable data on both known and hidden hazards. The proposed work will demonstrate WASANETâs feasibility, setting a foundaÆon for widespread adopÆon and improved public health protecÆon. Overall, WASANET offers a transformaÆve leap in water safety monitoring worldwide.
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