Surprising Structural and Functional Properties of Favism Erythrocytes Are Linked to Special Metabolic Regulation: A Cell Aging Study.

Favism uniquely arises from a genetic defect of the Glucose-6 Phosphate Dehydrogenase (G6PD) enzyme and results in a severe reduction of erythrocytes' (RBCs) reducing power that impairs the cells' ability to respond to oxidative stresses. After exposure to fava beans or a few other drugs, the patients experience acute hemolytic anemia due to RBCs' lysis both intra and extra-vascularly. In the present paper, we compared selected biochemical, biophysical, and ultra-morphological properties of normal RBCs and cells from favism patients measured along cellular aging. Along the aging path, the cells' characteristics change, and their structural and functional properties degrade for both samples, but with different patterns and effectors that have been characterized in biophysical and biochemical terms. In particular, the analysis revealed distinct metabolic regulation in G6DP-deficient cells that determines important peculiarities in the cell properties during aging. Remarkably, the initial higher fragility and occurrence of structural/morphological alterations of favism cells develop, with longer aging times, into a stronger resistance to external stresses and higher general resilience. This surprisingly higher endurance against cell aging has been related to a special mechanism of metabolic regulation that permits lower energy consumption in environmental stress conditions. Our results provided a direct and coherent link between the RBCs' metabolic regulation and the cell properties that would not have been possible to establish without an investigation performed during aging. The consequences of this new knowledge, in particular, can be discussed in a more general context, such as understanding the role of the present findings in determining the characteristics of the favism pathology as a whole.

A Simple High-Throughput Method for the Analysis of Vicine and Convicine in Faba Bean.

The faba bean is one of the earliest domesticated crops, with both economic and environmental benefits. Like most legumes, faba beans are high in protein, and can be used to contribute to a balanced diet, or as a meat substitute. However, they also produce the anti-nutritional compounds, vicine and convicine (v-c), that when enzymatically degraded into reactive aglycones can potentially lead to hemolytic anemia or favism. Current methods of analysis use LC-UV, but are only suitable at high concentrations, and thus lack the selectivity and sensitivity to accurately quantitate the low-v-c genotypes currently being developed. We have developed and fully validated a rapid high-throughput LC-MS method for the analysis of v-c in faba beans by optimizing the extraction protocol and assessing the method of linearity, limit of detection, limit of quantitation, accuracy, precision and matrix effects. This method uses 10-times less starting material; removes the use of buffers, acids and organic chemicals; and improves precision and accuracy when compared to current methods.

Metabolic profiling reveals alterations in the erythrocyte response to fava bean ingestion in G6PD-deficient mice.

BACKGROUND: Favism is an acute hemolytic syndrome caused by fava bean (FB) ingestion. The purpose of this study was to investigate the possible influences of FB on the metabonomic profile of erythrocytes in glucose-6-phosphate dehydrogenase (G6PD)-deficient (G6PDx) and wild-type (WT) mice. RESULTS: Ninety-two metabolites were identified in the comparison of the G6PDx and WT groups. Eighty-seven metabolites were identified in the erythrocytes of WT and G6PDx mice after FB ingestion. Thirty-eight metabolites were identified in the comparison of the FB-treated G6PDx and the FB-treated WT mouse groups. Among them, the number of glycerophospholipids (GPLs) and polyunsaturated fatty acids (PUFAs) changed significantly, which suggests that GPLs and PUFAs may be responsible for FB stress. CONCLUSION: This study demonstrates that G6PD deficiency might affect the metabonomic profile of erythrocytes in response to FB. © 2020 Society of Chemical Industry.

A novel G6PD gene variant in a Chinese girl with favism.

BACKGROUND: Glucose-6-phosphate dehydrogenase (G6PD) deficiency is the most common human enzymopathy. The human G6PD gene is highly polymorphic, and over 200 mutations have been identified, many of which are associated with hemolytic anemia. Here, we analyzed the clinical genetics data of a Chinese girl with favism who developed acute hemolytic anemia after fava bean ingestion. METHODS: The clinical genetics data of the proband who developed acute hemolytic anemia were collected and analyzed, and G6PD gene exons were sequenced in the proband and her family. RESULTS: We reported for the first time a novel G6PD gene variant in a Chinese girl, which we named "G6PD Wuhan." This variant is localized exon 3 of the G6PD gene at genomic position 141G > C, that is a change from p.Lys47 to Asn. The bioinformatics analysis and protein modeling study indicated this variant may have negative effects on the enzyme activity of G6PD. CONCLUSIONS: Our results indicated that favism in the proband was caused by this novel heterozygous variant (c.141G > C) in G6PD. The variant in G6PD has implications for genetic counseling and could provide insights into the functional roles of G6PD mutations.

Pattern of Hemolytic Anemia Among Egyptian Pediatric Emergency Department Patients.

OBJECTIVES: The emergency department is considered the backbone of the medical service offered in any hospital. Yet, the data on the frequency of pediatric hematological presentation is scanty. Anemia occurs in 9% to 14% of pediatric emergency department (ED) patients. Glucose-6-phosphate dehydrogenase (G6PD) deficiency affects more than 400 million people worldwide. Unfortunately, we do not have screening program for G6PD deficiency in Egypt. The aim of this study is to assess the burden of hemolytic crisis among Egyptian children visiting ED. METHODS: This is a prospective cross-sectional study among children presenting with acute hemolytic crisis in the ED of New Children Hospital, Cairo University from March to June 2016. Cases underwent full history taking, clinical examination, and laboratory tests based on clinical judgment of the resident. We categorized the presenting hemolytic anemias into 3 groups: G6PD deficiency, acute hemolysis in previously diagnosed patients with chronic hemolytic anemia, and acute undiagnosed hemolytic anemia. RESULTS: Our study included 143 patients, 109 males (76.22%) and 34 females (23.76%), with a mean age 36 months (range, 3-188 months), who presented with hemolytic anemia in the ED. Seventy-six cases (53.1%) were diagnosed as G6PD deficiency, 36 (25.2%) were diagnosed as chronic hemolytic anemia, and 31 (21.7%) were diagnosed as undiagnosed acute hemolytic anemia. CONCLUSIONS: Hemolytic anemia is very common presentation in ED. G6PD deficiency is the most common cause, representing 53.1% of the hemolytic anemia.

Intestinal transcriptional profiling reveals fava bean-induced immune response in DBA/1 mice.

BACKGROUND: Fava beans (FBs) have long been used as food, and their principal disadvantage is derived from their haemotoxicity. We hypothesized that FB ingestion alters the intestinal gene expression pattern, thereby inducing an immune response. RESULTS: In-depth sequence analysis identified 769 differentially expressed genes (DEGs) associated with the intestine in FB-treated DBA/1 mouse intestines. The identified genes were shown to be associated with biological processes (such as response to stimulus and immune system processes), human disease pathways (such as infectious diseases, endocrine and metabolic diseases, and immune diseases), and organismal system pathways (such as the digestive system, endocrine system, environmental adaptation, and immune system). Moreover, plasma total immunoglobulin E (IgE), histamine, interleukin (IL)-4 and IL-13 levels were significantly increased when the mice were treated with FBs. CONCLUSIONS: These results demonstrated that FBs affect the intestinal immune response and IgE and cytokine secretion in DBA/1 mice.

Leukocytosis in patients with favism and association with blood transfusion.

INTRODUCTION: Leukocytosis is a condition marked by abnormal increase in leukocyte count due to an inflammatory response as a defense against most of the infections, or bone tumors; including leukemia. The aim of this study is to analyze the effect of blood transfusion in leukocytosis patients with favism as compared to patients treated with antibiotics or combination of both. METHODS: A total of 97 patients with favism who were referred to the University hospital in 2016-2017 were studied. KEY FINDINGS: These patients experienced acute hemolysis following beans meal. These patients were either treated with blood transfusion, antibiotics or combination of both. CONCLUSIONS: This study shows that blood transfusion is an effective therapeutic option for the treatment of leukocytosis. Antibiotics are not deemed necessary for the treatment and blood transfusion alone, can decrease leukocytes to the normal level.

A practical toxicity bioassay for vicine and convicine levels in faba bean (Vicia faba).

BACKGROUND: Faba bean (Vicia faba) vicine and convicine (V-C) aglycones (divicine and isouramil respectively) provoke an acute hemolytic anemia called favism in individuals with a glucose-6-phosphate dehydrogenase (G6PD) enzyme defect in their red blood cells. Geneticists/plant breeders are working with faba bean to decrease V-C levels to improve public acceptance of this high-protein pulse crop. Here, we present a fast and simple ex vivo in vitro bioassay for V-C toxicity testing of faba bean or faba bean food products. RESULTS: We have shown that 1,3-bis (2-chloroethyl)-1-nitrosourea (BCNU)-treated (i.e., sensitized) normal red blood cells, like G6PD-defective blood, displayed (i) continuous glutathione (GSH) depletion with no regeneration as incubation time and the dose of aglycones increased, (ii) progressive accumulation of denatured hemoglobin products into high molecular weight (HMW) proteins with increased aglycone dose, (iii) both band 3 membrane proteins and hemichromes, in HMW protein aggregates. We have also demonstrated that sensitized red blood cells can effectively differentiate various levels of toxicity among faba bean varieties through the two hemolysis biomarkers: GSH depletion and HMW clumping. CONCLUSION: BCNU-sensitized red blood cells provide an ideal model for favism blood, to assess and compare the toxicity of faba bean varieties and their food products. © 2018 Society of Chemical Industry.

Favism, the commonest form of severe hemolytic anemia in Palestinian children, varies in severity with three different variants of G6PD deficiency within the same community.

Glucose-6-phosphate dehydrogenase (G6PD) deficiency is a common genetic abnormality known to predispose to acute hemolytic anemia (AHA), which can be triggered by certain drugs or infection. However, the commonest trigger is fava beans (Vicia faba) ingestion, causing AHA (favism), which may be life-threatening especially in children. G6PD deficiency is genetically highly heterogeneous, as nearly 200 different mutations have been observed. We have investigated the hematological features of acute favism in the Palestinian Gaza community that is characterized by the polymorphic coexistence of three different G6PD deficiency genes (G6PD A-, G6PD Cairo, G6PD Med). We have found by comparison to the general population (485 adults and 466 newborns) that children with favism, in terms of relative frequency, G6PD A- was under-represented, whereas G6PD Med was over-represented. We also found that the severity of anemia was significantly greater with G6PD Med and G6PD Cairo than with G6PD A-; and with G6PD Cairo, compared to the other two variants, there was greater hyperbilirubinemia, as well as persistence of mild anemia and reticulocytosis for as long as 4months after recovery from favism. This is the first report determining a differential impact of different G6PD mutations on the clinical features of favism in the same population and the same environment.

Molecular mediators of favism-induced acute kidney injury.

Intolerance to fava beans in subjects with glucose-6-phosphate-dehydrogenase deficiency (favism) may lead to severe hemolytic crises and decreased renal function. Renal biopsy findings exploring the molecular mechanisms of renal damage in favism have not been previously reported. We report a case of favism-associated acute kidney injury in which renal biopsy showed acute tubular necrosis and massive iron deposits in tubular cells. Interestingly, iron deposit areas were characterized by the presence of oxidative stress markers (NADPH-p22 phox and heme-oxigenase-1) and macrophages expressing the hemoglobin scavenger receptor CD163. In addition, iron deposits, NADPH-p22 phox, hemeoxigenase- 1 and CD163 positive cells were observed in some glomeruli. These results identify both glomerular and tubular involvement in favism-associated acute kidney injury and suggest novel therapeutic targets to prevent or accelerate recovery from acute kidney injury.

[Glucose-6-phosphate dehydrogenase deficiency in children: a case report]. / Deficiencia de glucosa 6 fosfato deshidrogenasa en niños: caso clínico.

INTRODUCTION: Glucose-6-phosphate dehydrogenase deficiency (G6PD deficiency) is the most common red blood cell (RBC) enzyme disorder. The decrease as well as the absence of the enzyme increase RBC vulnerability to oxidative stress caused by exposure to certain medications or intake of fava beans. Among the most common clinical manifestations of this condition, acute hemolysis, chronic hemolysis, neonatal hyperbilirubinemia, and an asymptomatic form are observed. OBJECTIVE: To analyze the case of a child who presented hemolytic crisis due to favism. CASE REPORT: A 2 year and 7 month old boy with a history of hyperbilirubinemia during the newborn period with no apparent cause, no family history of hemolytic anemia or parental consanguinity. He presented a prolonged neonatal jaundice and severe anemia requiring RBC transfusion. An intake of fava beans 48 h prior to onset of symptoms was reported. G6PD qualitative determination was compatible with this enzyme deficiency. CONCLUSION: G6PD deficiency can be highly variable in its clinical presentation, so it is necessary to keep it in mind during the diagnosis of hemolytic anemia at any age.

G6PD Potenza: A Novel Pathogenic Variant Broadening the Mutational Landscape in the Italian Population.

Background: Glucose 6 phosphate dehydrogenase (G6PD) is a rate-limiting enzyme of the pentose phosphate pathway. The loss of G6PD activity in red blood cells increases the risk of acute haemolytic anaemia under oxidative stress induced by infections, some medications, or fava beans. More than 200 single missense mutations are known in the G6PD gene. A 41-year-old woman with a family history of favism coming from the Basilicata region (Italy) was evaluated at our hospital for G6PD abnormalities. Methods: DNA was extracted from a peripheral blood sample and genotyped for the most common G6PD pathogenic variants (PVs). Positive results obtained by Restriction Fragment Length Polymorphism (RFLP), as per practice in our laboratory, were then reconfirmed in Sanger sequencing. Results:RFLP analysis highlighted a variant compatible with the G6PD Cassano variant. Confirmatory testing by Sanger unexpectedly identified a novel variant: c.1357G>A, p.(Val453Met) (NM_001360016.2); the same variant was found in the patient's mother. In silico models predicted a deleterious effect of this variant at the protein level. The novel G6PD variant was named "G6PD Potenza" on the basis of the patient's regional origin. Conclusions: This case describes a novel G6PD variant. It also highlights how the Sanger sequencing technique still represents an indispensable confirmatory standard method for variants that could be misinterpreted by only using a "first-level" approach, such as the RFLP. We stress that the evaluation of clinical manifestations in G6PD-deficient patients is of primary importance for the classification of each new G6PD mutation, in agreement with the new WHO guidelines.

Two new class III G6PD variants [G6PD Tunis (c.920A>C: p.307Gln>Pro) and G6PD Nefza (c.968T>C: p.323 Leu>Pro)] and overview of the spectrum of mutations in Tunisia.

We screened 423 patients referred to our laboratory after hemolysis triggered by fava beans ingestion, neonatal jaundice or drug hemolysis. Others were asymptomatic but belonged to a family with a history of G6PD deficiency. The determination of enzymatic activity using spectrophotometric method, revealed 293 deficient (143 males and 150 females). The molecular analysis was performed by a combination of PCR-RFLP and DNA sequencing to characterize the mutations causing G6PD deficiency. 14 different genotypes have been identified : G6PD A(-) (376A>G;202G>A) (46.07%) and G6PD Med (33.10%) were the most common variants followed by G6PD Santamaria (5.80%), G6PD Kaiping (3.75%), the association [c.1311T and IVS11 93c] (3.75%), G6PD Chatham (2.04%), G6PD Aures (1.70%), G6PD A(-) Betica (0.68%), the association [ 376G;c.1311T;IVS11 93c] (0.68%), G6PD Malaga, G6PD Canton and G6PD Abeno respectively (0.34%). Two novel missense mutations were identified (c.920A>C: p.307Gln>Pro and c.968T>C: p.323 Leu>Pro). We designated these two class III variants as G6PD Tunis and G6PD Nefza. A mechanism which could account for the defective activity is discussed.

Oxidative stress and antioxidant defense in Egyptian favism patients.

BACKGROUND: Favism occurs as the result of intolerance to the ingesting of fava beans or to the inhalation of pollen from the Vicia faba plant. Patients with favism are always Glucose-6-phosphate dehydrogenase (G6PD)-deficient, but not all G6PD-deficient individuals develop hemolysis as a result of fava beans consumption. PATIENTS AND METHODS: Blood samples were collected from children with favism (n = 55) between age (2-12 years) on EDTA tubes divided into 3 groups: group 1 control group (n = 15), group 2 before blood transfusion (during hemolytic action) (n = 20) and group 3 after blood transfusion (treated) (n = 20). RESULTS: It was found that in group 2 GSH level was significantly low; (1.11 ± 0.39, p < 0.001) compared to controls (26.31 ± 5.26, p < 0.001). In group 3 after blood transfusion Level of GSH rose but remained lower than normal level (5.88 ± 2.33, p < 0.001) compared to controls. As for oxidative stress parameters, both levels of H2O2 and MDA were highly significant in group 2; (213.49 ± 57.56, p < 0.001), (98.05 ± 22.34, p < 0.001) compared to controls (3.75 ± 1.164, p < 0.001), (7.38 ± 2.07, p < 0.001), respectively. Moreover, in group 3 after blood transfusion, levels of H2O2 and MDA were decreased but remained high compared to controls (66.55 ± 22.49, p < 0.001), (47.18 ± 9.62, p < 0.001) sequentially. Also, there was a negative correlation between GSH that acts as antioxidant defense enzyme and each one of oxidative stress parameters MDA & H2O2. However, there was a positive correlation between H2O2 and MDA. CONCLUSIONS: From this study, it could be concluded that the favic patients have high oxidative stress (H2O2 and MDA) more than normal individuals and less antioxidant defense (GSH). With the passage of time these individuals, cells would be more vulnerable for H2O2-induced senescence.  

Favism: Clinical Features at Different Ages.

Favism is a hemolytic disease due to the ingestion of fava beans in individuals with glucose-6-phosphate dehydrogenase (G6PD) deficiency. There is wide inter- and intra-individual variability in the development of hemolytic crisis, and several factors influence it: quantity, quality, ripeness of fava beans, and age of onset. In this narrative review of case reports and case series, we reported the predisposing factors and clinical features for four different age groups classified as follows: pregnant women and infants (i.e., exclusively breastfed children); children, from weaned to 11 years; preadolescents and adolescents, from 11 to 18 years; and adults (18 years and older). Some symptoms developed only in specific age groups: death in infants; visual impairment in children; systolic murmur in infants, children, and adolescents; and renal failure in adults. In youngest children or pregnant women the severity is the highest. Some other symptoms were present in all: jaundice, increased bilirubin, splenomegaly, hepatomegaly, discolored urine, tachycardia, pallor, abdominal pain, malaise, vomit, nausea, and dizziness. Laboratory findings are characterized by anemia, reticulocytosis, elevated bilirubin level, and sometimes urinary urobilinogen and methemoglobinemia. In most cases the symptomatology is self-limited and does not release sequelae, but hospitalization and transfusion are often required.