PROJECT SUMMARY/ABSTRACT Acute kidney injury (AKI) is an abrupt loss of kidney function that occurs in 25-59% of children hospitalized with severe malaria. AKI is one of the strongest risk factors for death in children with severe malaria and is associated with long-term cognitive and kidney problems. Following injury, the kidney undergoes a repair process to restore normal kidney function. If the repair process goes awry and is ‘maladaptive’, it can lead to persistent kidney injury and chronic kidney disease (CKD). Our previous studies showed an increased risk of CKD in severe malaria survivors. These results led to our central hypothesis that persistent activation of pathways associated with severe malaria associated-AKI contributes to maladaptive repair following AKI and increases CKD risk. Towards this hypothesis, we have preliminary data showing that persistent immune activation and signs of altered blood vessel function are associated with persistent kidney disease at one-month follow-up. An estimated 15.6% of Ugandan children have persistent kidney injury after severe malaria with 17.5% of children with persistent kidney injury dying within one-year follow-up compared to 3.7% without AKI. Guided by strong preliminary data, we propose a prospective multi-site observational cohort study to follow 750 Ugandan children, 90 days to 15 years of age, hospitalized with severe malaria to assess the incidence of CKD. We will also enroll 189 community children of the same age to define the incidence of CKD in Ugandan children. We will pursue two Specific Aims to evaluate the malaria-associated pathogenesis of acute and chronic kidney disease (MAP-CKD) after severe malaria. In Aim 1, we will determine clinical risk factors associated with CKD, including the severity and duration of AKI as well as a poorly understood complication of malaria called blackwater fever. We will also evaluate the genetic risk factors for CKD in children over follow-up, focusing on genes linked to kidney disease (e.g., APOL1) or protection from severe malaria (e.g., sickle cell anemia). In Aim 2, we will focus on defining mechanisms of maladaptive repair following AKI by measuring biomarkers in children’s blood and urine over follow-up. These studies will have the potential to uncover pathways of maladaptive repair following AKI that lead to the development of CKD and are amenable to intervention. Our long-term goal is to prevent children from developing CKD. These studies will achieve this goal by allowing us to identify children at the highest risk of CKD, providing clinical follow-up and early treatment for CKD. Secondly, by determining the maladaptive nature of the healing process, we will be able to use biomarkers to identify children at risk of CKD. Third, these studies have the potential to identify treatments to promote adaptive renal repair and reduce CKD development. Collectively, our proposed research will provide new insights into kidney disease in malaria and may...