Alessandra Santoro

Langerhans cell histiocytosis reveals a new IL-17A- dependent pathway of dendritic cell fusion

IL-17A is a T cell–specific cytokine that is involved in chronic inflammations, such as Mycobacterium infection, Crohns disease, rheumatoid arthritis and multiple sclerosis. Mouse models have explained the molecular basis of IL-17A production and have shown that IL-17A has a positive effect not only on granuloma formation and neurodegeneration through unknown mechanisms, but also on bone resorption through Receptor activator of NF-κB ligand (RANKL) induction in osteoblasts. Langerhans cell histiocytosis (LCH) is a rare disease of unknown etiology, lacking an animal model, that cumulates symptoms that are found separately in various IL-17A–related diseases, such as aggressive chronic granuloma formation, bone resorption and soft tissue lesions with occasional neurodegeneration. We examined IL-17A in the context of LCH and found that there were high serum levels of IL-17A during active LCH and unexpected IL-17A synthesis by dendritic cells (DCs), the major cell type in LCH lesions. We also found an IL-17A–dependent pathway for DC fusion, which was highly potentiated by IFN-γ and led to giant cells expressing three major tissue-destructive enzymes: tartrate resistant acidic phosphatase and matrix metalloproteinases 9 and 12. IFN-γ expression has been previously documented in LCH and observed in IL-17A–related diseases. Notably, serum IL-17A–dependent fusion activity correlates with LCH activity. Thus, IL-17A and IL-17A–stimulated DCs represent targets that may have clinical value in the treatment of LCH and other IL-17A–related inflammatory disorders.

Differential expression of specific microRNA and their targets in acute myeloid leukemia

Acute myeloid leukemia (AML) the most common acute leukemia in adults is characterized by various cytogenetic and molecular abnormalities. However, the genetic etiology of the disease is not yet fully understood. MicroRNAs (miRNA) are small noncoding RNAs which regulate the expression of target mRNAs both at transcriptional and translational level. In recent years, miRNAs have been identified as a novel mechanism in gene regulation, which show variable expression during myeloid differentiation. We studied miRNA expression of leukemic blasts of 29 cases of newly diagnosed and genetically defined AML using quantitative reverse transcription polymerase chain reaction (RT‐PCR) for 365 human miRNA. We showed that miRNA expression profiling reveals distinctive miRNA signatures that correlate with cytogenetic and molecular subtypes of AML. Specific miRNAs with consolidated role on cell proliferation and differentiation such as miR‐155, miR‐221, let‐7, miR‐126 and miR‐196b appear to be associated with particular subtypes. We observed a significant differentially expressed miRNA profile that characterizes two subgroups of AML with different mechanism of leukemogenesis: core binding factor (CBF) and cytogenetically normal AML with mutations in the genes of NPM1 and FLT3‐ITD. We demonstrated, for the first time, the inverse correlation of expression levels between miRNA and their targets in specific AML genetic groups. We suggest that miRNA deregulation may act as complementary hit in the multisteps mechanism of leukemogenesis offering new therapeutic strategies. Am. J. Hematol. 2010.

Role of exosomes released by chronic myelogenous leukemia cells in angiogenesis

Our study is designed to assess if exosomes released from chronic myelogenous leukemia (CML) cells may modulate angiogenesis. We have isolated and characterized the exosomes generated from LAMA84 CML cells and demonstrated that addition of exosomes to human vascular endothelial cells (HUVEC) induces an increase of both ICAM‐1 and VCAM‐1 cell adhesion molecules and interleukin‐8 expression. The stimulation of cell‐cell adhesion molecules was paralleled by a dose‐dependent increase of adhesion of CML cells to a HUVEC monolayer. We further showed that the treatment with exosomes from CML cells caused an increase in endothelial cell motility accompanied by a loss of VE‐cadherin and β‐catenin from the endothelial cell surface. Functional characterization of exosomes isolated from CML patients confirmed the data obtained with exosomes derived from CML cell line. CML exosomes caused reorganization into tubes of HUVEC cells cultured on Matrigel. When added to Matrigel plugs in vivo, exosomes induced ingrowth of murine endothelial cells and vascularization of the Matrigel plugs. Our results suggest for the first time that exosomes released from CML cells directly affect endothelial cells modulating the process of neovascularization.

Genotype–phenotype study of familial haemophagocytic lymphohistiocytosis due to perforin mutations

Background: PRF1 gene mutations are associated with familial haemophagocytic lymphohistiocytosis type 2 (FHL2). Genotype–phenotype analysis, previously hampered by limited numbers of patients, was for the first time performed by data pooling from five large centres worldwide. Patients and methods: Members of the Histiocyte Society were asked to report cases of FHL2 on specific forms. Data were pooled in a common database and analysed. Results: The 124 patients had 63 different mutations (including 15 novel mutations): 11 nonsense, 10 frameshift, 38 missense and 4 in-frame deletions. Some mutations were found more commonly: 1122 G→A (W374X), associated with Turkish origin, in 32 patients; 50delT (L17fsX22) associated with African/African American origin, in 21 patients; and 1090-91delCT (L364fsX), in 7 Japanese patients. Flow cytometry showed that perforin expression was absent in 40, reduced in 6 and normal in 4 patients. Patients presented at a median age of 3 months (quartiles: 2, 3 and 13 months), always with fever, splenomegaly and thrombocytopenia. NK activity was absent in 36 (51%), ⩽2% in 18 (26%), 3–⩽5% in 10 (14%), >5% in 4 (6%), “reduced” in 2 (3%) (not reported, n = 54). Nonsense mutations were significantly associated with younger age at onset (p<0.001) and absent natural killer activity (p = 0.008). Conclusion: PRF1 mutations are spread over the functional domains. Specific mutations are strongly associated with Turkish, African American and Japanese ethnic groups. Later onset and residual cytotoxic function are observed in patients with at least one missense mutation.

Novel Munc13-4 mutations in children and young adult patients with haemophagocytic lymphohistiocytosis.

Familial haemophagocytic lymphohistiocytosis (FHL) is a genetically heterogeneous disorder characterised by constitutive defects in cellular cytotoxicity resulting in fever, hepatosplenomegaly and cytopenia, and the outcome is fatal unless treated by chemoimmunotherapy followed by haematopoietic stem-cell transplantation. Since 1999, mutations in the perforin gene giving rise to this disease have been identified; however, these account only for 40% of cases. Lack of a genetic marker hampers the diagnosis, suitability for transplantation, selection of familial donors, identification of carriers, genetic counselling and prenatal diagnosis. Mutations in the Munc13–4 gene have recently been described in patients with FHL. We sequenced the Munc13–4 gene in all patients with haemophagocytic lymphohistiocytosis not due to PRF1 mutations. In 15 of the 30 families studied, 12 novel and 4 known Munc13–4 mutations were found, spread throughout the gene. Among novel mutations, 2650C→T introduced a stop codon; 441del A, 532del C, 3082del C and 3226ins G caused a frameshift, and seven were mis sense mutations. Median age of diagnosis was 4 months, but six patients developed the disease after 5 years of age and one as a young adult of 18 years. Involvement of central nervous system was present in 9 of 15 patients, activity of natural killer cells was markedly reduced or absent in 13 of 13 tested patients. Chemo-immunotherapy was effective in all patients. Munc13–4 mutations were found in 15 of 30 patients with FHL without PRF1 mutations. Because these patients may develop the disease during adolescence or even later, haematologists should include FHL2 and FHL3 in the differential diagnosis of young adults with fever, cytopenia, splenomegaly and hypercytokinaemia.

Slp1 and Slp2-a Localize to the Plasma Membrane of CTL and Contribute to Secretion from the Immunological Synapse

Rab27a is required for polarized secretion of lysosomes from cytotoxic T lymphocytes (CTLs) at the immunological synapse. A series of Rab27a‐interacting proteins have been identified; however, only Munc13‐4 has been found to be expressed in CTL. In this study, we screened for expression of the synaptotagmin‐like proteins (Slps): Slp1/JFC1, Slp2‐a/exophilin4, Slp3‐a, Slp4/granuphilin, Slp5 and rabphilin in CTL. We found that both Slp1 and Slp2‐a are expressed in CTL. Isoforms of Slp2‐a in CTL showed variation of the linker region but conserved the C2A and C2B and Slp homology (SHD) domains. Both Slp1 and Slp2‐a interact with Rab27a in CTL, and Slp2‐a, but not Slp1, is rapidly degraded when Rab27a is absent. Slp2‐a contains PEST‐like sequences within its linker region, which render it susceptible to degradation. Both Slp1 and Slp2‐a localize predominantly to the plasma membrane of both human and mouse CTLs, and we show that Slp2‐a can focus tightly at the immunological synapse formed with a target cell. Individual knockouts of either Slp2‐a or Slp1 fail to impair CTL‐mediated killing of targets; however, overexpression of a dominant‐negative construct consisting of the SHD of Slp2‐a, which is 56% identical to that of Slp1, reduces target cell death, suggesting that both Slp1 and Slp2‐a contribute to secretory lysosome exocytosis from CTL. These results suggest that both Slp1 and Slp2‐a may form part of a docking complex, capturing secretory lysosomes at the immunological synapse.

Leukemogenic mechanisms and targets of a NUP98/HHEX fusion in acute myeloid leukemia

We have studied a patient with acute myeloid leukemia (AML) and t(10;11)(q23;p15) as the sole cytogenetic abnormality. Molecular analysis revealed a translocation involving nucleoporin 98 (NUP98) fused to the DNA-binding domain of the hematopoietically expressed homeobox gene (HHEX). Expression of NUP98/HHEX in murine bone marrow cells leads to aberrant self-renewal and a block in normal differentiation that depends on the integrity of the NUP98 GFLG repeats and the HHEX homeodomain. Transplantation of bone marrow cells expressing NUP98/HHEX leads to transplantable acute leukemia characterized by extensive infiltration of leukemic blasts expressing myeloid markers (Gr1(+)) as well as markers of the B-cell lineage (B220(+)). A latency period of 9 months and its clonal character suggest that NUP98/HHEX is necessary but not sufficient for disease induction. Expression of EGFP-NUP98/HHEX fusions showed a highly similar nuclear localization pattern as for other NUP98/homeodomain fusions, such as NUP98/HOXA9. Comparative gene expression profiling in primary bone marrow cells provided evidence for the presence of common targets in cells expressing NUP98/HOXA9 or NUP98/HHEX. Some of these genes (Hoxa5, Hoxa9, Flt3) are deregulated in NUP98/HHEX-induced murine leukemia as well as in human blasts carrying this fusion and might represent bona fide therapeutic targets.

Genotype–phenotype study of familial haemophagocytic lymphohistiocytosis type 3

Background Mutations of UNC13D are causative for familial haemophagocytic lymphohistiocytosis type 3 (FHL3; OMIM 608898). Objective To carry out a genotype–phenotype study of patients with FHL3. Methods A consortium of three countries pooled data on presenting features and mutations from individual patients with biallelic UNC13D mutations in a common database. Results 84 patients with FHL3 (median age 4.1 months) were reported from Florence, Italy (n=54), Hamburg, Germany (n=18), Stockholm, Sweden (n=12). Their ethnic origin was Caucasian (n=57), Turkish (n=10), Asian (n=7), Hispanic (n=4), African (n=3) (not reported (n=3)). Thrombocytopenia was present in 94%, splenomegaly in 96%, fever in 89%. The central nervous system (CNS) was involved in 49/81 (60%) patients versus 36% in patients with FHL2 (p=0.001). A combination of fever, splenomegaly, thrombocytopenia and hyperferritinaemia was present in 71%. CD107a expression, NK activity and Munc 13-4 protein expression were absent or reduced in all but one of the evaluated patients. 54 different mutations were observed, including 15 new ones: 19 missense, 14 deletions or insertions, 12 nonsense, nine splice errors. None was specific for ethnic groups. Patients with two disruptive mutations were younger than patients with two missense mutations (p<0.001), but older than comparable patients with FHL2 (p=0.001). Conclusion UNC13D mutations are scattered over the gene. Ethnic-specific mutations were not identified. CNS involvement is more common than in FHL2; in patients with FHL3 and disruptive mutations, age at diagnosis is significantly higher than in FHL2. The combination of fever, splenomegaly, thrombocytopenia and hyperferritinaemia appears to be the most easily and frequently recognised clinical pattern and their association with defective granule release assay may herald FHL3.

Germline mutations of the perforin gene are a frequent occurrence in childhood anaplastic large cell lymphoma

Monoallelic and biallelic mutations of the PRF1 gene have been reported in some cases of childhood lymphoma. Anaplastic large cell lymphoma (ALCL) accounts for 10% to 15% of all childhood lymphomas. To assess the possible role of PRF1 mutations in ALCL, the authors screened a series of patients collected by the Associazione Italiana di Ematologia Oncologia Pediatrica (AIEOP).

STXBP2 mutations in children with familial haemophagocytic lymphohistiocytosis type 5

Background Familial haemophagocytic lymphohistiocytosis (FHL) is a rare immune deficiency with uncontrolled inflammation; the clinical course usually starts within the first years of life, and is usually fatal unless promptly treated and then cured with haematopoietic stem cell transplant. FHL is caused by genetic mutations resulting in defective cell cytotoxicity; three disease related genes have been identified to date: perforin, Munc13-4 and syntaxin-11. A fourth gene, STXBP2, has been identified very recently as responsible for a defect in Munc18-2 in FHL-5. Aims To describe the result of the screening of families with HLH and previously unassigned genetic defects. Methods Patients with HLH diagnosed according to current diagnostic criteria, and who lacked mutations in the PRF1, Munc13-4, and STX11 genes were sequenced for mutations in STXBP2. Functional study was performed when material was available. Results Among the 28 families investigated, 4 (14%) with biallelic STXBP2 mutations were identified. They originated from Italy, England, Kuwait and Pakistan. The p.Pro477Leu resulting from c.1430C>T, and p.Arg405Gln resulting from the single c.1214G>A nucleotide change are known, while we contribute two novel mutations: p.Glu132Ala resulting from c.395A>C, and p.Gly541Ser, resulting from c.1621G>A. The detrimental effect of the p.Gly541Ser mutation was documented biochemically and functionally in NK and CD8 cells. Additional polymorphisms are also described. Conclusion These data expand current knowledge on the genetic heterogeneity of FHL and suggest that patients with FHL5 may have different results in degranulation assays under different conditions.