Methotrexate effects on adenosine receptor expression in peripheral monocytes of persons with type 2 diabetes and cardiovascular disease.

The Cardiovascular Inflammation Reduction Trial (CIRT) was designed to assess whether low-dose methotrexate (LD-MTX) would reduce future cardiac events in patients with metabolic syndrome or type 2 diabetes (T2DM) who are post-myocardial infarction (MI) or have multivessel disease. Our previous work indicates that MTX confers atheroprotection via adenosine A2A receptor (A2AR) activation. In order for A2AR ligation to reduce cardiovascular events, A2AR levels would need to be preserved during MTX treatment. This study was conducted to determine whether LD-MTX alters peripheral blood mononuclear cell (PBMC) adenosine receptor expression in persons at risk for cardiovascular events. Post-MI T2DM CIRT patients were randomized to LD-MTX or placebo (n=10/group). PBMC isolated from blood drawn at enrollment and after 6 weeks were evaluated for expression of adenosine receptors and reverse cholesterol transporters by real-time PCR. Fold change between time points was calculated using factorial analyses of variance. Compared with placebo, the LD-MTX group exhibited a trend toward an increase in A2AR (p=0.06), while A3R expression was significantly decreased (p=0.01) after 6 weeks. Cholesterol efflux gene expression did not change significantly. Persistence of A2AR combined with A3R downregulation indicates that failure of MTX to be atheroprotective in CIRT was not due to loss of adenosine receptors on PBMC (ClinicalTrials.gov identifier: NCT01594333).

Alzheimer's disease: many failed trials, so where do we go from here?

Alzheimer's disease (AD) is a neurodegenerative brain disorder associated with relentlessly progressive cognitive impairment and memory loss. AD pathology proceeds for decades before cognitive deficits become clinically apparent, opening a window for preventative therapy. Imbalance of clearance and buildup of amyloid ß and phosphorylated tau proteins in the central nervous system is believed to contribute to AD pathogenesis. However, multiple clinical trials of treatments aimed at averting accumulation of these proteins have yielded little success, and there is still no disease-modifying intervention. Here, we discuss current knowledge of AD pathology and treatment with an emphasis on emerging biomarkers and treatment strategies.