Red Blood Cell Pyruvate Kinase Properties in Sickle Cell Disease - of Mice and Men

Background: Townes and Berkeley mouse models of sickle cell disease (SCD) are commonly used to study SCD pathophysiology and to develop novel therapies. Although the pathophysiology in these models is similar to the human disease, there are distinct differences. For example, Townes SS mice have higher ATP and lower 2,3-diphosphyglycerate (2,3-DPG) levels compared to Townes AA mice. This contrasts with SCD patients, who show lower ATP and higher 2,3-DPG levels, suggesting potential differences between human and murine red blood cell (RBC) metabolism. Pyruvate kinase (PK), a key ATP-generating enzyme in glycolysis, is a target for novel SCD therapies. While PK activators have been shown to increase hemoglobin in clinical trials, such treatments do not consistently lead to the same hematological change in mouse models, further indicating that PK properties may differ between SCD mouse models and human patients. A detailed comparative characterization of PK and glycolytic metabolites in murine SCD models and SCD patients is therefore important. Aim: To study PK properties in murine and human SCD RBCs. Methods: Wild-type (C57BL/6J), Townes (AA and SS) and Berkeley mice (non-sickling and sickling) were used. Human blood was obtained from healthy controls (HbAA) and untreated SCD patients (HbSS). Hematological parameters were measured using the Sysmex hematology analyzer. PK (Vmax, 5mM substrate) and hexokinase (HK) activity, and PK thermostability (53°C) were measured in purified RBCs. Levels of ATP, 2,3-DPG, as well as reduced glutathione (GSH) were measured by targeted LC-MS/MS and spectrophotometry, respectively. P50 (oxygen tension at which 50% of hemoglobin is saturated with oxygen) was measured with the Hemox analyzer (TCS). Statistical analysis was performed in Graphpad Prism 9.4.1. by Welch's t-test. Results: Samples from 17 wild-type mice, 21 Townes mice (10 AA, 11 SS), 15 Berkeley mice (7 non-sickling, 8 sickling) and 12 human subjects (6 HbAA, 6 HbSS) were included. Both Townes and Berkeley SCD mice showed increased PK activity (Table 1; p