Project description:Differentially expressed genes may provide insight into the underlying mechanisms of Gulf War Illness involved in neurodegeneration.

Project description:Mouse gut metagenome in Gulf War Illness

Project description:This pilot study enrolled 9 GWI (Gulf War Illness) cases identified from the Department of Veterans Affairs GWI registry, and 11 sedentary control veterans who had not been deployed to the Persian Gulf and were matched to cases by sex, body mass index (BMI) and age.<br>We exposed GWI patients and matched controls to an exercise challenge to explore differences in immune cell function measured by classic immune assays and gene expression profiling.

Project description:Aims: In an effort to gain further insight into the underlying mechanisms tied to disease onset and progression of Gulf War Illness (GWI), our team evaluated GWI patient response to stress utilizing RNA-Seq. Main Methods: The protocol included blood collection before (baseline), during (peak of exercise, measured by VO2 max), and after exercise challenge (recovery – four hours post-exercise challenge). Peripheral blood mononuclear cell (PBMC) transcriptomics data were analyzed using DESeq2 and DEXseq software to understand why GWI patients process stressors differently from their healthy counterparts. Key findings: Our findings validate previously identified dysregulation of immune and inflammatory pathways among GWI patients as well as highlight novel immune and inflammatory markers of disease activity. These results provide a foundation for future research efforts in understanding GWI pathophysiology and creating targeted treatments. Significance: Gulf War Illness is a complex, chronic, and debilitating multi-system illness impacting 25%-30% of the U.S. troops deployed to the 1990-1991 Gulf War. The condition is characterized by medically unexplained fatigue and affects multiple organ systems. Because the underlying mechanisms are largely unknown, patients receive symptom-based treatment, rather than targeting fundamental biological processes. To the best of our knowledge, this is the first study that applies RNA-Seq to analyze the effect of GWI, and the response to stressors in GWI, on the transcriptomic changes in circulating immune cells.

Project description:Gulf war illness alterations of the mouse gut virome and bacterial microbiome

Project description:Of the nearly 1 million military personnel who participated in the 1990-1991 Gulf War, between 25% and 35% became ill with what now is referred to as Gulf War Illness (GWI), by the Department of Defense.  Symptoms varied from gastrointestinal distress to lethargy, memory loss, inability to concentrate, depression, respiratory and reproductive problems. The symptoms have persisted for 30 years in those afflicted but the basis of the illness remains largely unknown.  Nerve agents and other chemical exposures in theater have been implicated but the long-term effects of these acute exposures have left few if any identifiable signatures.  The major aim of this study is to elucidate the possible genomic basis for the persistence, especially of the neurological and behavioral effects.  To address this, we performed a whole genome epigenetic analysis of the proposed cause of GWI, viz., exposure to organophosphate neurotoxicants combined with high circulating glucocorticoids in two inbred mouse strains, C57BL/6J and DBA/2J. The animals received corticosterone in their drinking water (20mg%, w/v) for 7 days followed by injection of diisopropylfluorophosphate, a nerve agent surrogate (DFP, 4mg/kg, i.p.). Control mice were maintained under normal husbandry. Six weeks after DFP injection, the animals were euthanized and medial prefrontal cortex harvested for genomic methylation analysis by MBD-seq. We observed 67 differentially methylated genes, notably among them, Ttll7, Akr1c14, Slc44a4, and Rusc2, all related to different symptoms of GWI. Our results support proof of principle of genetic differences in the chronic effects of GWI-related exposures and may reveal why the disease has persisted in many of the now aging Gulf War veterans.

Project description:Gulf War Illness (GWI) is a diverse set of neurologic and systemic symptoms affecting many veterans deployed in the Persian Gulf War, but its etiology is unknown and treatment options are limited. Veterans with GWI were exposed to a variety of agents, including pyridostigmine bromide, used as prophylaxis against nerve agents, intranasal lipopolysaccharide (LPS) from desert sandstorms, and chronic unpredictable stress (CUS) from combat. Here, we investigated the gene expression effects of these three Gulf War-related exposures (GWE) in adult rat frontal cortex (FC) and lateral amygdala (LA) using Clariom S microarrays. We found 138 transcript clusters (TCs) in LA and 38 TCs in FC differentially expressed between the group with GWE (n=2) compared to naïve controls (n=3, FDR <10%). These TCs included genes involved in inflammation such as Fosb (pmin=1.02e-5) and Junb (pmin=1.13e-5). Gene ontology analysis found enrichment of differentially expressed genes in “T cell differentiation” (pmin=8.71e-5) and “response to organophosphorus” (pmin=1.74e-8), among other categories. Lastly, we found that prophylactic treatment with rosiglitazone, a PPAR- agonist, reduced gene expression changes associated with GWE (in LA: 115/138 [83.3%] TCs with reduced changes, χ2=61.33, p=4.82e-15). These results suggest our rat model of GWI is associated with gene expression changes related to neuroinflammation and that some of these molecular changes may be mitigated by rosiglitazone prophylaxis.

Project description:Gulf war illness alterations of mouse virome with andrographolide treatment

Project description:Changes in DNA methylation patterns associated with Gulf War Illness

Project description:Altered gut microbiome in a mouse model of gulf war illness causes neuroinflammation and intestinal injury via leaky gut and TLR4 activation