SBIR-STTR Award

Mitochondrial Respirometry in Frozen Biological Samples
Award last edited on: 3/6/2022

Sponsored Program
STTR
Awarding Agency
NIH : NIEHS
Total Award Amount
$378,388
Award Phase
1
Solicitation Topic Code
NIEHS
Principal Investigator
Amy A Wang

Company Information

Enspire Bio Inc

515 S Figueroa Street Suite 1060
Los Angeles, CA 90071
   (310) 880-6414
   N/A
   www.enspirebio.com

Research Institution

University of California - Davis

Phase I

Contract Number: 1R41ES031043-01A1
Start Date: 5/20/2020    Completed: 4/30/2021
Phase I year
2020
Phase I Amount
$301,694
Impaired mitochondrial respiration plays a key role in metabolic, cardiovascular, and aging-related diseases. However, mitochondrial respirometry analysis currently requires processing of the living tissue sample within an hour after being taken from the patient. This requirement makes respirometry analysis largely unfeasible to standard clinical practice and clinical studies. We invented a new technology to assess maximal mitochondrial respiratory capacity in previously-frozen biological samples, which thus far been considered impossible by the scientific community. Side-by-side comparison confirmed that our assay accurately reflects results measured in fresh samples. Our technology thus overcomes the fundamental limitation of standard approaches that required living tissue. Moreover, our approach consists of simplified sample preparation which uses significantly less biological material. Enspire Bio will further develop this patented Frozen Mitos technology to enable respirometry measurements for clinical applications and frozen samples, which currently is not available. We will achieve our goals by Aim 1: Establishing standard protocols for oxygen consumption measurements from frozen tissue samples derived from human and mouse tissue samples. We will further improve throughput by enabling measurements of oxygen consumption from tissue homogenate instead of isolated mitochondria. Aim 2: Establishing proprietary kits and delivering those to five beta testing sites including opinion-leading academic labs, mitochondrial disease centers and a biotech and pharmaceutical company to test and provide feedback. To provide frozen sample analysis to clients that have no capacity for wet lab assays, we will develop a CRO- type service in-house where samples will be shipped to EnspireBio for analysis. Working with a set of pilot academic, clinical and industry clients will provide feedback to establish procedures and the economics of the CRO model approach for the frozen tissue respirometry.

Public Health Relevance Statement:
Narrative Impaired mitochondrial function has been shown to contribute to development and progression of various diseases. There is an unmet need to clinically monitor mitochondrial function; however, until now this has been impossible due to the requirement of immediate processing of living tissue samples. We have developed a new technology to measure mitochondrial function in previously frozen samples, which, for the first time, opens up the possibility of clinical monitoring of mitochondrial function in large population.

Project Terms:
Academia; Acute; Aging; Biocompatible Materials; Biological; Biological Assay; Biotechnology; Cardiovascular system; Cells; Client; Clinical; clinical application; clinical development; clinical practice; Clinical Research; clinically relevant; Communities; Complex; Data; Development; Disease; Drug Exposure; Economics; Environment; Environmental Monitoring; environmental toxicology; Evaluation; Feedback; Freezing; Future; Genetic Models; Goals; Hour; Human; Impairment; improved; Industry; Instruction; Legal patent; Measurement; Measures; Metabolic; Methodology; Methods; minimally invasive; Mitochondria; Mitochondrial Diseases; Monitor; Mus; new technology; Organizational Models; Outcome; Oxygen Consumption; Patients; Pharmaceutical Preparations; Pharmacologic Substance; Phase; Play; Population; Positioning Attribute; Preparation; Procedures; Protocols documentation; Reagent; Reproducibility; Research; Research Contracts; Research Personnel; Respiration; respiratory; Respiratory physiology; Running; Sampling; Services; Ships; Side; Site; Swab; Technology; Technology Assessment; Testing; Time; Tissue Sample; Tissues; toxicant; Toxicant exposure; Toxicology; United States Food and Drug Administration

Phase II

Contract Number: ----------
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
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Phase II Amount
$76,694