We describe a case of a Japanese boy with syndromic congenital sideroblastic anemia who presented with various non-hematological symptoms. Genetic analysis showed a heterozygous frameshift mutation (c.1639delA) and T/T genotype of the common coding single nucleotide polymorphism rs10117 (c.1933C>T) in HSPA9. Parental analysis revealed that the father carried the same frameshift mutation as well as rs10117 (T/T) but was not anemic. While the rs10117T allele is associated with lower HSPA9 expression, the expression levels are variable. We speculate that the possible differences in the HSPA9 mRNA expression levels between the child and his father may have caused the phenotypic difference.

Cobalamin deficiency during treatment of pediatric precursor B-cell lymphoblastic leukemiaHiromi Kinoshita1), Atsuko Watanabe2), Yoshitada Taji1), Moe Yoshimura2), Atsuhiko Ota2), Takashi Fukushima2), Ryuhei Tanaka2), Yasuhiro Ebihara1, 3)1) Clinical Laboratory, 2)Department of Pediatric Hematology/Oncology, 3)Department of Laboratory Medicine, Saitama Medical University International Medical Center, Saitama, JapanCorresponding author: Yasuhiro Ebihara, MD, Department of Laboratory Medicine, Saitama Medical University International Medical Center, 1397-1 Yamane, Hidaka-shi, Saitama 350-1298, JapanTEL: +81-42-984-4384; FAX: +81-42-984-4384E-mail:[email protected] countMain text: 500Figure: 1Supplementary Table: 1Running title: Cobalamin deficiency in pediatric BCP-ALLKeywords: cobalamin deficiency, pediatric B-cell precursor acute lymphoblastic leukemia, erythroid dysplasia, nutritionTo the editor,There has been considerable progress in supportive therapy and care strategies for patients with cancer, but nutritional problems may still arise during treatment 1. Herein, we report on a 4-year-old boy who was diagnosed with B-cell precursor acute lymphoblastic leukemia (BCP-ALL). Complete remission was achieved and maintained. Eight months later, he underwent late intensification treatment, which contained three cycles of methotrexate 500 mg/m2. BM examination scheduled before he went into the maintenance phase showed erythroid dominance and apparent dysplasia, including megaloblastic change, multinuclearity, karyorrhexis, and nuclear budding, and a few Howell-Jolly bodies were noted in the cytoplasm of some erythroid cells (Figure 1). Myelodysplastic syndrome (MDS) was suspected because he had received several anti-leukemic drugs that could induce treatment-related MDS. These morphological changes are seen in folate and/or cobalamin deficiency, which might be mistaken for MDS or acute leukemia 2, 3. The laboratory investigations (Table S1) revealed a decreased serum cobalamin level of 145 pg/mL, indicating that the erythroid dysplasia was due to cobalamin deficiency. Oral replacement therapy of mecobalamin, 500 µg/day, was started. Ten days later, BM examination revealed that the erythroid dysplasia had mostly disappeared. The final diagnosis was erythroid dysplasia caused by cobalamin deficiency. The patient subsequently underwent maintenance treatment and has remained in CR.A characteristic feature of cobalamin deficiency is nuclear-cytoplasm asynchrony in erythroid maturation, whereby maturation of the nucleus is delayed relative to that of the cytoplasm because cobalamin is essential for DNA synthesis 4, 5. Cobalamin deficiency is very rare in childhood, and is seen mainly in children with inadequate intake, breast-feeding infants with a cobalamin-deficient mother, and those with congenital malabsorption4, 5. The occurrence of cobalamin deficiency in the middle of the ALL treatment is extremely rare for the pediatric patients who can take orally and developing normally. In pediatric ALL patients, the existence of cobalamin deficiency before treatment was reported 6,7, but there is almost no report about cobalamin deficiency during treatment. We could not find any factors which might induce cobalamin deficiency. However, it was possible that the repeated episodes of BM suppression, the recovery from which required more cobalamin for maturation of blood cells, and accumulation of anorexic episodes a caused by administration of anti-leukemic drugs and treatment complications might have led to a gradual decrease in his serum cobalamin level, culminating in cobalamin deficiency. Cobalamin deficiency requires parenteral or oral replacement therapy 4, 8. It is reported that response to replacement is rapid (within 5 days) and megaloblastic anemia can be corrected in 6-8 weeks 4,5. However, the erythroid dysplasia in BM resolved almost completely after 10 days of cobalamin replacement, and improvement in both peripheral blood (Table S1) and BM were clearly achieved in our patient. Although there have been reports of improved laboratory data in peripheral blood 2,4, 5, there are few descriptions on findings in BM 9. Although there has been considerable progress in supportive therapy and care strategies for children with cancer, their nutritional status should be monitored carefully during treatment.

Thrombohemorrhagic disorders are the main cause of morbidities and mortalities of essential thrombocythemia (ET), which are typically observed at age 50–60 years and rarely encountered in adolescence or childhood. Recently, anagrelide, a quinazinolone derivative, has been used as a therapeutic agent for ET. Although it is used to reduce platelet count, its cardiotoxicity has been reported. Here, we present an 18-year-old boy with ET who was treated with anagrelide and developed acute myocardial infarction. This was presumed to be an effect of anagrelide administration and, specifically, damage to the coronary arterial endothelial cell exacerbated by ET.