Abstract

INTRODUCTION: Sickle cell disease (SCD) is a hereditary hemoglobin disorder characterized by hemolytic anemia, vaso-occlusive crisis and chronic inflammation that affects multiple organs including kidney, liver, brain, spleen, and heart. Renal disease, the most common complication in SCD, is a progressive disease that begins in childhood as glomerular hyperfiltration, then advances to albuminuria, following by a fast decline in glomerular filtration. It may further progress to a renal failure in adults. More than 50% of SCD patients develop chronic kidney disease (CKD), and 14-18% progress to the end-stage kidney disease. Renal injury in SCD results from a cascade of events starting with chronic red blood cells sickling and hemolysis leading to increased blood viscosity, microvascular obstruction and dilation, hypoxia in the medulla, oxidative stress, and inflammation. Mildronate (meldonium) is an anti-ischemic and anti-inflammatory medication approved in Eastern Europe. HYPOTHESIS: We hypothesized that mildronate administration reduces renal medullary hypoxia and decreases oxidative stress and inflammation ameliorating renal injury in SCD mice. METHODS: The study was approved by the Howard University IACUC. Townes SCD mice, expressing human HbS, and control mice, expressing human HbA, were injected with mildronate (400 mg/kg in saline) intraperitoneally or saline as vehicle control over the course of ten days. Blood was collected and used for hematological parameters analysis. Cytokines were measured by Bio-Plex suspension array in plasma. Hypoxyprobe Biotin kit (Hypoxyprobe Inc) was used for visualization of organ hypoxia. The effect of Mildronate on systemic and renal oxidative stress was measured by malondialdehyde (MDA) using ELISA (Abcam). Urinary KIM-1 was measured by TIM-1/KIM-1 ELISA kit (R&D Systems). RESULTS: Mildornate injections did not affect hematological parameters of SCD mice including hematocrit, MCV, MCH, CMCH, erythrocytes and hemoglobin. Mildronate administration resulted in a significant reduction of the circulating pro-inflammatory cytokines IFN-γ, IL-1β and TNF-α and a trend toward reduction of IL-6, and IL-17 in SCD mice. We found higher level of hypoxia in the medulla of SCD mice compared to control mice. Mildronate injections did not reduced hypoxia in renal medulla of SCD mice. Also, mildronate injections did not change MDA levels in plasma or kidney of SCD mice. We found a significant reduction of proteinuria in SCD mice injected with mildronate compared to SCD mice injected with vehicle. Analysis of H&E-stained kidneys showed significant reduction of glomerular size and medullar congestion areas in the mildronate injected SCD mice. Urinary KIM-1 levels were reduced by mildronate administration. CONCLUSIONS: Our results demonstrate that mildronate ameliorates glomerular and tubular injury in SCD mice and reduces capillary congestion. Mildronate improves renal function, in part by reducing inflammation but not through the reduction of hypoxia or oxidative stress. In future, we plan to assess the mildronate’s impact on kidney function and vessel inflammation. This work was supported by NIH grants R01HL125005, U54MD007597, and SC1HL150685. We thank Xiaomei Niu for helping with the Bio-Plex assay. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

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