Individual red blood cell fetal hemoglobin quantification allows to determine protective thresholds in sickle cell disease

Hebert, Nicolas; Rakotoson, Marie Georgine; Bodivit, Gwellaouen; Audureau, Étienne; Bencheikh, Laura; Kiger, Laurent; Oubaya, Nadia; Pakdaman, Sadaf; Sakka, Mehdi; Liberto, Gaëtana Di; Chadebech, Philippe; Vingert, Benoît; Pirenne, France; Galactéros, Frédéric; Cambot, Marie; Bartolucci, Pablo

doi:10.1002/ajh.25937

Cited by 19 publications

(26 citation statements)

References 54 publications

(59 reference statements)

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“…These studies and others paint an increasing better understanding of the molecular regulation of hemoglobin switching and genetic heterogeneity in SCD and other hemoglobin variant disorders, such as thalassemia. The early studies with LDT versions of the HbF RBC assays make clear that patients may respond in either a homocellular or heterocellular HbF distribution fashion among RBCs, as reaffirmed by the current study by Hebert et al , 1 the important parameter correlating with therapeutic response is the population size of RBCs having a threshold approximating >4 pg HbF per cell, seemingly where sufficient intercalating HbF prevents the polymerizing sickling phenomenon in SCD. It remains to be determined if the critical threshold for sickling prevention is a specific level of HbF in the cell or if merely achieving a certain proportion of HbF of the total cellular hemoglobin content is sufficient to predict sickling phenotype remains to be determined.…”

supporting

confidence: 79%

“…The work of Hebert, Rakotoson et al in this issue of the American Journal of Hematology 1 points to evolving in vitro Diagnostics (IVD) testing of red blood cell (RBC) hemoglobin levels, now poised for a clear role in the personalized care and therapeutic management of sickle cell disease (SCD) patients, long known to be a genetically and clinically heterogenous patient population 2‐4 . The performance and validation studies detailed in this article and supplement material describe a laboratory developed flow cytometric test (LDT) capable of providing sufficient precision to measure threshold levels of hemoglobin F (HbF) in a clinically meaningful way.…”

mentioning

confidence: 97%

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Assay for “fetal hemoglobin levels” in erythrocytes: Impact of new In Vitro Diagnostics regulation and expanded applications in sickle cell disease management

Davis¹

2020

American J Hematol

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supporting

confidence: 79%

mentioning

confidence: 97%

Assay for “fetal hemoglobin levels” in erythrocytes: Impact of new In Vitro Diagnostics regulation and expanded applications in sickle cell disease management

Davis¹

2020

American J Hematol

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“…In the present study, we describe the utility of flow cytometric F‐cell analysis and demonstrate sustained and near‐pancellular or pancellular distribution of HbF in this cohort. We show that hydroxyurea, when given in this manner, can achieve or exceed the goals defined for ‘curative therapies’ for SCA 12–14 …”

Section: Introductionmentioning

confidence: 85%

“…Several recent publications have suggested that curative therapies should aim to achieve HbF >30%, F‐cells >70% and >4–10 pg F/F‐cell 12–14 . We have demonstrated that early initiation of hydroxyurea using individualised, pharmacokinetics (PK)‐guided dosing results in robust and sustained HbF levels beyond 30–40% for most adherent patients 15,16 .…”

Section: Introductionmentioning

confidence: 86%

Early initiation of hydroxyurea (hydroxycarbamide) using individualised, pharmacokinetics‐guided dosing can produce sustained and nearly pancellular expression of fetal haemoglobin in children with sickle cell anaemia

et al. 2021

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Hydroxyurea (hydroxycarbamide) is an effective treatment for sickle cell anaemia (SCA), but clinical responses depend primarily upon the degree of fetal haemoglobin (HbF) induction and the heterogeneity of HbF expression across erythrocytes. The number and characteristics of HbF-containing cells (F-cells) are not assessed by traditional HbF measurements. Conventional hydroxyurea dosing (e.g. fixed doses or low starting doses with stepwise escalation) produces a moderate heterocellular HbF induction, but haemolysis and clinical complications continue. Robust, pancellular HbF induction is needed to minimise or fully inhibit polymerisation of sickle haemoglobin. We treated children with hydroxyurea using an individualised, pharmacokinetics-guided regimen starting at predicted maximum tolerated dose (MTD). We observed sustained HbF induction (mean >30%) for up to 6 years, which was not dependent on genetic determinants of HbF expression. Nearly 70% of patients had ≥80% F-cells (nearpancellular), and almost half had ≥90% F-cells (pancellular). The mean HbF/F-cell content was~12 pg. Earlier age of initiation and better medication adherence were associated with high F-cell responses. In summary, early initiation of hydroxyurea using pharmacokinetics-guided starting doses at predicted MTD can achieve sustained near-pancellular or pancellular HbF expression and should be considered an achievable goal for children with SCA treated with hydroxyurea at optimal doses. Clinical trial registration number: NCT02286154 (clinicaltrials.gov).

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“…From a circulatory physiology perspective these include the time dependence of oxygen pressures for humans as red cells enter and exit tissues, the transit times in humans for red cells through the smallest vessels where sickled cells could become stuck, and measurements similar to those of Ferrone and coworkers (50,81) but which also take into account adhesion to the capillary endothelium. For more accurate calculations of sickling, information on composition heterogeneity is required, especially for the distribution of fetal hemoglobin at each total intracellular hemoglobin concentration (102). Also needed are additional measurements on purified solutions of mixtures of HbS with HbF and HbA, including delay times and solubilities as a function of fractional saturation under physiological conditions, to resolve the discrepancies in copolymerization probabilities from solubility and polymer phase composition measurements (54).…”

Section: Discussionmentioning

confidence: 99%

Allosteric control of hemoglobin S fiber formation by oxygen and its relation to the pathophysiology of sickle cell disease

Henry

Cellmer

Dunkelberger

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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The pathology of sickle cell disease is caused by polymerization of the abnormal hemoglobin S upon deoxygenation in the tissues to form fibers in red cells, causing them to deform and occlude the circulation. Drugs that allosterically shift the quaternary equilibrium from the polymerizing T quaternary structure to the nonpolymerizing R quaternary structure are now being developed. Here we update our understanding on the allosteric control of fiber formation at equilibrium by showing how the simplest extension of the classic quaternary two-state allosteric model of Monod, Wyman, and Changeux to include tertiary conformational changes provides a better quantitative description. We also show that if fiber formation is at equilibrium in vivo, the vast majority of cells in most tissues would contain fibers, indicating that it is unlikely that the disease would be survivable once the nonpolymerizing fetal hemoglobin has been replaced by adult hemoglobin S at about 1 y after birth. Calculations of sickling times, based on a recently discovered universal relation between the delay time prior to fiber formation and supersaturation, show that in vivo fiber formation is very far from equilibrium. Our analysis indicates that patients survive because the delay period allows the majority of cells to escape the small vessels of the tissues before fibers form. The enormous sensitivity of the duration of the delay period to intracellular hemoglobin composition also explains why sickle trait, the heterozygous condition, and the compound heterozygous condition of hemoglobin S with pancellular hereditary persistence of fetal hemoglobin are both relatively benign conditions.

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Individual red blood cell fetal hemoglobin quantification allows to determine protective thresholds in sickle cell disease

Cited by 19 publications

References 54 publications

Assay for “fetal hemoglobin levels” in erythrocytes: Impact of new In Vitro Diagnostics regulation and expanded applications in sickle cell disease management

Assay for “fetal hemoglobin levels” in erythrocytes: Impact of new In Vitro Diagnostics regulation and expanded applications in sickle cell disease management

Early initiation of hydroxyurea (hydroxycarbamide) using individualised, pharmacokinetics‐guided dosing can produce sustained and nearly pancellular expression of fetal haemoglobin in children with sickle cell anaemia

Allosteric control of hemoglobin S fiber formation by oxygen and its relation to the pathophysiology of sickle cell disease

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