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Completed NON-SBIR/STTR RPGS NIH (US)

Establishment and Validation of a Novel Animal Model of Fibromyalgia

$4.18M USD

Funder NATIONAL INSTITUTE OF NEUROLOGICAL DISORDERS AND STROKE
Recipient Organization Massachusetts General Hospital
Country United States
Start Date Jul 01, 2024
End Date Jun 30, 2025
Duration 364 days
Number of Grantees 1
Roles Principal Investigator
Data Source NIH (US)
Grant ID 10868792
Grant Description

Fibromyalgia (FM) is a chronic debilitating pain condition that affects about four million people in the U.S. alone. Current treatment of FM focuses on symptomatic management because the etiology of FM remains poorly understood. It is pivotal to develop and validate new animal models to provide a preclinical platform to evaluate

novel therapeutics and conduct in-depth mechanistic investigations. There is significant heterogeneity in FM etiologies, among which deranged gut homeostasis has been strongly implicated. Intestinal alkaline phosphatase (IAP), a gut brush border enzyme, is a critical regulator of gut homeostasis. IAP deficiency alters gut bacterial

composition, increases gut permeability, and induces persistent low-grade systemic inflammation. We recently observed that mice with IAP deficiency [IAP knockout (KO)] demonstrate a robust FM-like phenotype and gut- derived pathophysiological changes: a) hypersensitivity to mechanical, thermal, and cold stimulation; b)

spontaneous pain behavior; c) fatigue-, anxiety-, and depression-like behaviors; d) signs of deranged gut homeostasis; e) brain neuroinflammation; f) altered skeletal muscle characteristics; and g) improvement of FM- like behavior with the gabapentinoid or IAP treatment. We have also detected decreased IAP activity in fecal

samples of FM patients. Accordingly, we propose a novel animal model of FM in IAP KO mice predicated on the important role of deranged gut homeostasis in the FM pathophysiology. In the R61 phase, reliability and reproducibility of behavior-phenotyping of IAP KO mice will be established. In the R33 phase, face, construct

and predictive validity will be assessed. In Aim 1 (R61), we will expand our existing IAP KO mice colonies to obtain sex- and age-matched male and female IAP KO mice and WT (wild type) littermates. Fifteen behavioral tests in eight domains will be standardized to evaluate behavioral readouts using composite weighted Z-scores

as a primary outcome measure. Reliability of behavioral tests will be assessed by a test-retest procedure in the same cohort of age- and sex-matched IAP KO mice and WT mice by two testers blinded to the genotype. Reproducibility of the behavioral phenotype will be assessed by two independent research groups using IAP KO

mice and WT mice raised in two independent animal facilities. In Aim 2 (R33), we will compare behavioral readouts in IAP KO mice with a) clinical FM symptoms and b) epidemiological FM features (female vs. male; prevailing ages) to assess the face validity. Construct validity will be examined by comparing biochemical and

histological profiles of IAP KO mice with the pathophysiological features identified in FM patients. In Aim 3 (R33), we will assess the predictive validity of this mouse model using FDA-approved FM treatment or exogenous IAP supplementation. Reduced opioid responsiveness, a clinical finding in FM patients, also will be examined. We

anticipate that this preclinical FM model would be instrumental in developing innovative FM biomarkers and therapeutics. This mouse model also lends itself to investigating the molecular mechanisms of FM when combined with leading-edge technologies including genetic tools.

All Grantees

Massachusetts General Hospital

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