Transient neonatal hemolytic anemia due to the novel gamma globin gene mutation HBG2:C.290T>C, p.Leu97Pro (hemoglobin Wareham).

Unstable gamma globin variants can cause transient neonatal hemolytic anemia. We have identified a novel variant in a newborn who presented with jaundice and anemia requiring phototherapy and red blood cell transfusion. The patient was found to be heterozygous for the mutation HGB2:c.290T>C, p.Leu97Pro, which we have termed hemoglobin (Hb) Wareham. This substitution is expected to generate an unstable hemoglobin with increased oxygen affinity based on the homologous mutation previously described in the beta globin gene, which is termed as Hb Debrousse. The patient fully recovered by 9 months of age as expected with the transition from fetal to adult hemoglobin.

Acute Hemolytic Anemia Caused by G6PD Deficiency in Children in Mayotte: A Frequent and Severe Complication.

Severe hemolytic anemia is a rare complication of glucose-6-phosphate dehydrogenase (G6PD) deficiency. It occurs with the Mediterranean (Med) variant corresponding to a class 2 deficiency according to the World Health Organization (WHO) classification, and it correlates with a severe deficiency in G6PD activity. In Mayotte, the majority of patients have the African (A-) variant as a WHO class 3 deficiency. Yet we have observed numerous cases of severe hemolytic anemia defined by a hemoglobin level of <6 g/dL. In this study, we aimed to describe the epidemiological, clinical, and biological features as well as the treatment modalities of children presenting with a severe hemolytic crisis secondary to G6PD deficiency in Mayotte. The secondary objective was to study the disease genotype when this information was available. Between April 2013 and September 2020, 73 children presented with severe anemia because of G6PD deficiency in Mayotte. The median hemoglobin level during the hemolytic crises was 3.9 g/dL. All of the patients underwent a transfusion and hospitalization. Twenty patients had a disease genotype: 11 had the African mutation and 9 had the Med mutation. Although they are among the most common triggers of G6PD acute hemolytic anemia, drugs were found to not be present and fava bean ingestion was found in only 1 child. One of the specific triggers was traditional medicine, including Acalypha indica . Severe hemolytic crisis in children because of G6PD deficiency is a frequent occurrence in Mayotte. The patients had severe disease symptoms, but the severity did not correlate with the genotype: the African (A-) variant and the Med variant resulted in the same level of disease severity.

A thermolabile aldolase A mutant causes fever-induced recurrent rhabdomyolysis without hemolytic anemia.

Aldolase A deficiency has been reported as a rare cause of hemolytic anemia occasionally associated with myopathy. We identified a deleterious homozygous mutation in the ALDOA gene in 3 siblings with episodic rhabdomyolysis without hemolytic anemia. Myoglobinuria was always triggered by febrile illnesses. We show that the underlying mechanism involves an exacerbation of aldolase A deficiency at high temperatures that affected myoblasts but not erythrocytes. The aldolase A deficiency was rescued by arginine supplementation in vitro but not by glycerol, betaine or benzylhydantoin, three other known chaperones, suggesting that arginine-mediated rescue operated by a mechanism other than protein chaperoning. Lipid droplets accumulated in patient myoblasts relative to control and this was increased by cytokines, and reduced by dexamethasone. Our results expand the clinical spectrum of aldolase A deficiency to isolated temperature-dependent rhabdomyolysis, and suggest that thermolability may be tissue specific. We also propose a treatment for this severe disease.

Erythrocyte pyruvate kinase deficiency in an old-order Amish cohort: longitudinal risk and disease management.

Pyruvate kinase deficiency is a chronic illness with age specific consequences. Newborns suffer life-threatening hemolytic crisis and hyperbilirubinemia. Adults are at risk for infections because of asplenia, pregnancy-related morbidity, and may suffer organ damage because of systemic iron overload. We describe 27 Old Order Amish patients (ages 8 months-52 years) homozygous for c.1436G>A mutations in PKLR. Each subject had a predictable neonatal course requiring packed red blood cell transfusions (30 ± 5 mL/kg) to control hemolytic disease and intensive phototherapy to prevent kernicterus. Hemochromatosis affected 29% (n = 4) of adult patients, who had inappropriately normal serum hepcidin (34.5 ± 12.7 ng/mL) and GDF-15 (595 ± 335pg/mL) relative to hyperferritinemia (769 ± 595 mg/dL). A high prevalence of HFE gene mutations exists in this population and may contribute to iron-related morbidity. Based on our observations, we present a strategy for long-term management of pyruvate kinase deficiency.

Partial glutathione reductase deficiency as a cause of diverse clinical manifestations in a family with unstable hemoglobin (Hemoglobin Haná, ß63(E7) His-Asn).

Hemoglobin Haná [ß63(E7) His-Asn] is an unstable hemoglobin variant that was described in a Czech proband and her sister with Heinz body hemolytic anemia. The mother bearing the same mutation was asymptomatic; nevertheless, all three carriers had the same proportion of the mutant globin chains. Assessment of several erythrocyte antioxidant parameters revealed that both symptomatic children, unlike their asymptomatic mother, had significantly decreased glutathione reductase (GR) activity. Their GR activities were restorable in vitro by flavin adenine dinucleotide. The riboflavin supplementation improved their glutathione metabolism and ameliorated their hemolysis. Pre- and post-treatment assessment of the B(2) vitamers indicated suboptimal pre-treatment vitamin B(2) status in both children. This study provides evidence that partial GR deficiency may alter the clinical manifestation of an unstable hemoglobinopathy.

Cardiopulmonary complications of sickle cell disease: role of nitric oxide and hemolytic anemia.

Medical advances in the management of patients with sickle cell disease, thalassemia, and other hemolytic anemias have led to significant increases in life expectancy. Improved public health, neonatal screening, parental and patient education, advances in red cell transfusion medicine, iron chelation therapy, penicillin prophylaxis for children, pneumococcal immunization, and hydroxyurea therapy have all likely contributed to this effect on longevity. Importantly, as a generation of patients with sickle cell disease and thalassemia ages, new chronic complications of these hemoglobinopathies develop. In this context, pulmonary hypertension is emerging as one of the leading causes of morbidity and mortality in adult sickle cell and thalassemia patients, and likely in patients with other hemolytic anemias. A common feature of both sickle cell disease and thalassemia is intravascular hemolysis and chronic anemia. Recent data suggest that chronic intravascular hemolysis is associated with a state of endothelial dysfunction characterized by reduced nitric oxide (NO) bioavailability, pro-oxidant and pro-inflammatory stress and coagulopathy, leading to vasomotor instability and ultimately producing a proliferative vasculopathy, a hallmark of which is the development of pulmonary hypertension in adulthood. In conclusion, pulmonary hypertension is common in patients with hereditary hemolytic anemias and is associated with a high risk of death in patients with sickle cell disease. New therapies targeting this vasculopathy and aimed at normalizing the vasodilator:vasoconstrictor balance are discussed.

Mild hemolysis in a girl with G6PD Sumaré (class I variant) associated with G6PD A-.

In the present study we describe the clinical and laboratory features of a female child, a compound heterozygote for glucose-6-phosphate dehydrogenase (G6PD) Sumaré (1292T-->G) and African variants (202G-->A). G6PD Sumaré is a variant causing chronic nonspherocytic hemolytic anemia. The child had neonatal jaundice 2 days after birth and needed phototherapy for 8 days. Since then, she has not had episodes of dark urine or new episodes of jaundice. She has not had hemolytic crises in spite of five respiratory infections and antibiotics administration. Laboratory data showed a reticulocytosis (5.6%) without anemia and serum unconjugated bilirubin at the upper limit of the normalcy. No hemoglobin and hemosiderin in the urine were detected. G6PD activity at 37 degrees C was 1.15 UI/g Hb and G6PD cellulose acetate electrophoresis at pH 9.0 revealed two bands, in equal amounts, with normal and faster migration, respectively. She was homozygous for the normal (TA)6(TA)6 repeat in the UGT1A1 promoter. We conclude that the association of G6PD Sumaré and G6PD A- gave rise to a very mild chronic hemolysis, and the red cell population containing G6PD A- is probably enough to protect against severe chronic hemolysis.

Long-term clinical outcome in patients with glutathione synthetase deficiency.

OBJECTIVE: The objective was to determine the long-term clinical outcome and the effects of treatment of patients with glutathione synthetase (GS) deficiency (n = 28). METHODS: The diagnosis was based on demonstration of a marked decrease in GS activity in erythrocytes or cultured fibroblasts in all patients and was supported by finding a decrease in erythrocyte or fibroblast glutathione, presence of 5-oxoprolinuria, or both. The treatment varied but usually included correction of acidosis and supplementation with vitamins C and/or E. RESULTS: Sixteen patients were severely affected with neurologic symptoms such as seizures and psychomotor retardation; 7 had died at the time of the study. None of the severely affected patients had been treated with both vitamins C and E from the neonatal period. No significant difference was found in GS activity between patients with or without neurologic symptoms or in erythrocyte or fibroblast glutathione levels. Five patients had recurrent bacterial infections. CONCLUSION: On the basis of clinical symptoms, patients with GS deficiency can be classified into 3 phenotypes: mild, moderate, and severe. Our results indicate that early supplementation with vitamins C and E may improve the long-term clinical outcome.

Laboratory studies of erythrocytic pyruvate kinase deficiency. Pathogenesis of the hemolysis.

Genetic polymorphism exists in erythrocytic pyruvate kinase (PK)-deficient hemolytic anemia, as briefly described. Destruction of erythrocytes varied in extent, but its mechanisms in different PK-deficient polymorphic persons investigated were similar. A paradoxical post-splenectomy reticulocytosis regularly occurred. Qualitative enzymatic differences, the biochemistry, and measurements of erythrocytic destruction were made in several PK variants. 51Cr autologous and cross-transfusions of PK-deficient erythrocytes into volunteers showed multimodel regression lines of several erythrocytic cohorts. 59Felabeled PK-deficient reticulocytes donated by PK-deficient splenectomized subjects were transfused 20 hours before splenectomy into two PK-deficient infants with hemolysis, and into two adult volunteers with autoimmune thrombocytopenia. The highest reticulocyte concentration in any organ initially was within the spleen. Radioiron-labeled erythrocytes and cytologic data showed large splenic reticulocyte pools. Splenic macrophages ingesting reticulocytes and erythrocytes were seen by both light and electron microscopy of the splenic pulp. After cyanide additives inhibiting reticulocyte oxidative phosphorylation, a bizarre erythrocytic cytologic configuration was found by scanning electron microscopy. These studies of PK-mutant subjects with PK-deficient erythrocytic hemolysis showed age dependent destruction of erythrocytes. Bimodal Cr survival data suggested reticuloendothelial removal of short-lived erythrocytes and reticulocytes. The transfusions of radioironlabeled PK reticulocytes and the data obtained by scanning electron microscopy suggested that the spleen was the initial hostile organ destroying a cohort of susceptible erythrocytes, prinicpally reticulocytes.