Inhibition of BTK and PI3Kδ impairs the development of human JMML stem and progenitor cells.

Juvenile myelomonocytic leukemia (JMML) is an aggressive myeloproliferative neoplasia that lacks effective targeted chemotherapies. Clinically, JMML manifests as monocytic leukocytosis, splenomegaly with consequential thrombocytopenia. Most commonly, patients have gain-of-function (GOF) oncogenic mutations in PTPN11 (SHP2), leading to Erk and Akt hyperactivation. Mechanism(s) involved in co-regulation of Erk and Akt in the context of GOF SHP2 are poorly understood. Here, we show that Bruton's tyrosine kinase (BTK) is hyperphosphorylated in GOF Shp2-bearing cells and utilizes B cell adaptor for PI3K to cooperate with p110δ, the catalytic subunit of PI3K. Dual inhibition of BTK and p110δ reduces the activation of both Erk and Akt. In vivo, individual targeting of BTK or p110δ in a mouse model of human JMML equally reduces monocytosis and splenomegaly; however, the combined treatment results in a more robust inhibition and uniquely rescues anemia and thrombocytopenia. RNA-seq analysis of drug-treated mice showed a profound reduction in the expression of genes associated with leukemic cell migration and inflammation, leading to correction in the infiltration of leukemic cells in the lung, liver, and spleen. Remarkably, in a patient derived xenograft model of JMML, leukemia-initiating stem and progenitor cells were potently inhibited in response to the dual drug treatment.

Hepatic histologic findings in a case of MEGDHEL syndrome due to SERAC1 deficiency.

MEGD(H)EL syndrome is a rare autosomal recessive disorder caused by mutations in SERAC1, a protein necessary for phosphatidylglycerol remodeling. It is characterized by 3-methylglutaconic aciduria, deafness-dystonia, (hepatopathy), encephalopathy, and Leigh-like syndrome, but has a wide spectrum of severity. Here, we present a case of a child with MEGD(H)EL syndrome with infantile hepatopathy, neurodevelopmental delays, characteristic biochemical abnormalities, and biallelic novel SERAC1 mutations: (1) deletion of (at least) exons 2-4, pathogenic; and (2) c.1601A>T (p.H534L), likely pathogenic. Her initial clinical presentation was notable for persistently elevated transaminases, speech delay, delayed motor milestones, and sensorineural hearing loss. However, her verbal and motor development has progressively improved and now, at 4 years of age, she has only speech and mild gross motor delays as compared to her unaffected peers and is exceeding clinical expectations. The histologic features of a liver biopsy are described, which has not previously been published in detail for this syndrome. Hepatocytes showed granular cytoplasm and fine intracytoplasmic lipid droplets. The ultrastructural findings included abnormal circular mitochondrial cristae. These findings are consistent with a mitochondrial disorder.

Morphologic Characteristics of Myelodysplastic Syndromes.

Morphologic characterization remains a cornerstone in the diagnosis and classification of myelodysplastic syndromes (MDS) in the updated International Consensus Classification (ICC) and 5th edition World Health Organization Classification of Myeloid Neoplasms (Arber, Orazi, & Hasserjian, 2022; Khoury & Solary, 2022). The presence of dysplasia is one of the key diagnostic criteria required for establishing a diagnosis of MDS, and the percentage of myeloblasts in the blood and bone marrow impacts both disease classification and prognostication. Morphologic features also aid in distinguishing MDS from a myriad of other myeloid neoplasms and non-neoplastic mimics. Additional key morphologic features that should be recorded in any MDS case are the bone marrow cellularity and the degree of reticulin fibrosis. In this review, the morphologic assessment of the bone marrow biopsy, bone marrow aspirate, and peripheral blood smear as it pertains to the diagnosis and up-to-date classification of MDS will be described. The implications of the findings on classification and prognosis will also be discussed.