<i>In vivo</i>evaluation of the effect of sickle cell hemoglobin S, C and therapeutic transfusion on erythrocyte metabolism and cardiorenal dysfunction

D’Alessandro, Angelo; Nouraie, Mehdi; Zhang, Yingze; Cendali, Francesca; Gamboni, Fabia; Reisz, Julie A.; Zhang, Xu; Bartsch, Kyle W; Galbraith, Matthew D.; Gladwin, Mark T.

doi:10.1101/2023.02.13.528368

Cited by 5 publications

(6 citation statements)

References 82 publications

(151 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Post-HS elevation in circulating levels of amino acids are consistent with proteolytic events (eg, collagen breakdown, proline), altered hepatic function (eg, transamination, alanine—as reported with in vivo tracing of stable isotope-labeled glutamine in rodents 48 ), and kidney dysfunction (eg, creatinine 49 ) at 30 minutes after the EOS. Of note, creatinine accumulation and elevated hemolysis have been previously associated with dysregulated carnitine metabolism, as a function of impaired reuptake by SLC22A5 in the kidney in response to acute or chronic hypoxia, 50,51 and following osmotic stress-induced alterations of the Lands cycle, which participates in damaged lipid repair in the mature red blood cell 52,53 . Of note, elevation in circulating levels of acyl-carnitines was here associated with viscoelastic measurements of reduced clot strength, consistent with a previously described role of acyl-carnitines as anticoagulants via inhibition of factor Xa 54 …”

Section: Discussionsupporting

confidence: 87%

Omics Signatures of Tissue Injury and Hemorrhagic Shock in Swine

et al. 2023

Self Cite

View full text Add to dashboard Cite

Objective: Advanced mass spectrometry methods were leveraged to analyze both proteomics and metabolomics signatures in plasma upon controlled tissue injury (TI) and hemorrhagic shock (HS)-isolated or combined-in a swine model, followed by correlation to viscoelastic measurements of coagulopathy via thrombelastography. Background: TI and HS cause distinct molecular changes in plasma in both animal models and trauma patients. However, the contribution to coagulopathy of trauma, the leading cause of preventable mortality in this patient population remains unclear. The recent development of a swine model for isolated or combined TI+HS facilitated the current study. Methods: Male swine (n = 17) were randomized to either isolated or combined TI and HS. Coagulation status was analyzed by thrombelastography during the monitored time course. The plasma fractions of the blood draws (at baseline; end of shock; and at 30 minutes, 1, 2, and 4 hours after shock) were analyzed by mass spectrometry-based proteomics and metabolomics workflows. Results: HS-isolated or combined with TI-caused the most severe omic alterations during the monitored time course. While isolated TI delayed the activation of coagulation cascades. Correlation to thrombelastography parameters of clot strength (maximum amplitude) and breakdown (LY30) revealed signatures of coagulopathy which were supported by analysis of gene ontology-enriched biological pathways. Conclusion:The current study provides a comprehensive characterization of proteomic and metabolomic alterations to combined or isolated TI and HS in a swine model and identifies early and late omics correlates to viscoelastic measurements in this system.

show abstract

Section: Discussionsupporting

confidence: 87%

Omics Signatures of Tissue Injury and Hemorrhagic Shock in Swine

et al. 2023

Self Cite

View full text Add to dashboard Cite

show abstract

“…Non Leukoreduced units were characterized by higher concentrations of arginine catabolites, especially creatinine, a marker of amino acid catabolism that is used as a proxy for renal dysfunction when measured in vivo 90,91 . Finally, the increase in sphingosine 1‐phosphate found in LR pRBC may be caused by its generation by Sphk1 of RBC and thus is probably enriched in erythroid cells compared with white blood cells 92 …”

Section: Discussionmentioning

confidence: 99%

Effect of leukoreduction on the omics phenotypes of canine packed red blood cells during refrigerated storage

Miglio,

Rocconi,

Cremoni

et al. 2024

Veterinary Internal Medicne

View full text Add to dashboard Cite

BackgroundRed blood cell (RBC) storage promotes biochemical and morphological alterations, collectively referred to as storage lesions (SLs). Studies in humans have identified leukoreduction (LR) as a critical processing step that mitigates SLs. To date no study has evaluated the impact of LR on metabolic SLs in canine blood units using omics technologies.ObjectiveCompare the lipid and metabolic profiles of canine packed RBC (pRBC) units as a function of LR in fresh and stored refrigerated (up to 42 days) units.AnimalsPacked RBC units were obtained from 8 donor dogs enrolled at 2 different Italian veterinary blood banks.Study Design and MethodsObservational study. A volume of 450 mL of whole blood was collected using Citrate‐Phosphate‐Dextrose‐Saline‐Adenine‐Glucose‐Mannitol (CPD‐SAGM) transfusion bags with a LR filter to produce 2 pRBC units for each donor, without (nLR‐pRBC) and with (LR‐pRBC) LR. Units were stored in the blood bank at 4 ± 2°C. Sterile weekly samples were obtained from each unit for omics analyses.ResultsA significant effect of LR on fresh and stored RBC metabolic phenotypes was observed. The nLR‐pRBC were characterized by higher concentrations of free short and medium‐chain fatty acids, carboxylic acids (pyruvate, lactate), and amino acids (arginine, cystine). The LR‐pRBC had higher concentrations of glycolytic metabolites, high energy phosphate compounds (adenosine triphosphate [ATP]), and antioxidant metabolites (pentose phosphate, total glutathione).Conclusion and Clinical ImportanceLeukoreduction decreases the metabolic SLs of canine pRBC by preserving energy metabolism and preventing oxidative lesions.

show abstract

“…For example, all glycolytic intermediates (except pyruvate) are significantly increased in SCA but not in HbSC disease [9]. The metabolic profile of patients with SCD could also differ over time [9, 10]. Several plasma and RBC metabolites alter on the occurrence of VOEs compared to the steady‐state condition [10].…”

Section: Introductionmentioning

confidence: 99%

“…Increased knowledge on the pathophysiology of SCD has provided new therapeutic targets. SCD RBCs show alterations in various metabolites compared to healthy RBCs [9]. In addition, RBC metabolism in patients with HbSC disease differs from patients with SCA.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

A novel composition of endogenous metabolic modulators improves red blood cell properties in sickle cell disease

van Dijk,

Traets,

van Oirschot

et al. 2024

eJHaem

View full text Add to dashboard Cite

The most common forms of sickle cell disease (SCD) are sickle cell anemia (SCA; HbSS) and HbSC disease. In both, especially the more dense, dehydrated and adherent red blood cells (RBCs) with reduced deformability are prone to hemolysis and sickling, and thereby vaso‐occlusion. Based on plasma amino acid profiling in SCD, a composition of 10 amino acids and derivatives (RCitNacQCarLKHVS; Axcella Therapeutics, USA), referred to as endogenous metabolic modulators (EMMs), was designed to target RBC metabolism. The effects of ex vivo treatment with the EMM composition on different RBC properties were studied in SCD (n = 9 SCA, n = 5 HbSC disease). Dose‐dependent improvements were observed in RBC hydration assessed by hemocytometry (MCV, MCHC, dense RBCs) and osmotic gradient ektacytometry (Ohyper). Median (interquartile range [IQR]) increase in Ohyper compared to vehicle was 4.9% (4.0%–5.5%), 7.5% (6.9%–9.4%), and 12.8% (11.5%–14.0%) with increasing 20×, 40×, and 80X concentrations, respectively (all p < 0.0001). RBC deformability (EImax using oxygen gradient ektacytometry) increased by 8.1% (2.2%–12.1%; p = 0.0012), 9.6% (2.9%–15.1%; p = 0.0013), and 13.3% (5.7%–25.5%; p = 0.0007), respectively. Besides, RBC adhesion to subendothelial laminin decreased by 43% (6%–68%; p = 0.4324), 58% (48%–72%; p = 0.0185), and 71% (49%–82%; p = 0.0016), respectively. Together, these results provide a rationale for further studies with the EMM composition targeting multiple RBC properties in SCD.

show abstract

In vivoevaluation of the effect of sickle cell hemoglobin S, C and therapeutic transfusion on erythrocyte metabolism and cardiorenal dysfunction

Cited by 5 publications

References 82 publications

Omics Signatures of Tissue Injury and Hemorrhagic Shock in Swine

Omics Signatures of Tissue Injury and Hemorrhagic Shock in Swine

Effect of leukoreduction on the omics phenotypes of canine packed red blood cells during refrigerated storage

A novel composition of endogenous metabolic modulators improves red blood cell properties in sickle cell disease

Contact Info

Product

Resources

About