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10. Seroprevalence of herpes simplex virus type 2 infection among attendees of a sexually transmitted disease clinic in Italy. Italian Herpes Forum

Author

Cusini, M, Cusan, M, Parolin, C, Scioccati, L, Decleva, I, Mengoli, C, Suligoi, B, Palú, G, and Gentile, G

Subjects
Adult, Male, Herpes Genitalis, Adolescent, Blotting, Herpesvirus 2, Sexually Transmitted Diseases, Enzyme-Linked Immunosorbent Assay, Middle Aged, Ambulatory Care Facilities, Sensitivity and Specificity, Antibodies, Aged, Antibodies, Viral, Blotting, Western, Cross-Sectional Studies, Female, Herpesvirus 2, Human, Humans, Italy, Seroepidemiologic Studies, Viral, Western, Human
Published
2000

16. Seroprevalence of herpes simplex virus type 2 infection among attendees of a sexually transmitted disease clinic in Italy. Italian Herpes Forum.

Author

Cusini M, Cusan M, Parolin C, Scioccati L, Decleva I, Mengoli C, Suligoi B, Palú G, Cusini, M, Cusan, M, Parolin, C, Scioccati, L, Decleva, I, Mengoli, C, Suligoi, B, and Palú, G

Abstract

Background and Objectives: An increased prevalence of herpes simplex virus type 2 (HSV-2) infection has been recently observed in industrialized countries.Goal: To determine HSV-2 seroprevalence in a high-risk population in Italy.Study Design: A cross-sectional study was performed to ascertain the HSV-2 prevalence among 919 persons attending an STD clinic in northern Italy. A HSV-2-specific glycoprotein G-2-based immunoglobulin G enzyme-linked immunoabsorbent assay (Gull/Meridian ELISA; Meridian Diagnostics, Cincinnati, OH) was used and validated against Western blot analysis.Results: A prevalence of 24.6% was found without differences between males and females. Seroprevalence increased with age and number of partners during the previous year. Compared with Western blot analysis, the Gull/Meridian ELISA showed a sensitivity of 91.9% and a specificity of 98%, and positive and negative predictive values of 93.9% and 97.4%, respectively.Conclusion: This is the first Italian survey of HSV-2 infection conducted with a properly validated, Food and Drug Administration-approved, type-specific serologic method in a high-risk population. It is likely that between one to three million adults are infected with HSV-2. [ABSTRACT FROM AUTHOR]

Published
2000
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17. CDKN1B mutation and copy number variation are associated with tumor aggressiveness in luminal breast cancer

Author

Giovanni Franchin, Martina Cusan, Luigi Barzan, Giorgio Giorda, Samuele Massarut, Maura Sonego, Andrea Vecchione, Alessandra Dall'Acqua, Francesca Russo, Lorena Musco, Monica Schiappacassi, Gustavo Baldassarre, Lorenzo Gerratana, Tiziana Perin, Vincenzo Canzonieri, Fabio Puglisi, Roberto Sorio, Francesca Citron, Filippo Vit, Giorgia Mungo, Sandro Sulfaro, Jerry Polesel, Emilio Lucia, Vittorio Giacomarra, Sara D'Andrea, Milena S. Nicoloso, Maria Chiara Mattevi, Davide Viotto, Ilaria Anania, Ilenia Segatto, Barbara Belletti, Gian Luca Rampioni Vinciguerra, Federica Toffolutti, Riccardo Bomben, V. Gattei, Viotto, D., Russo, F., Anania, I., Segatto, I., Rampioni Vinciguerra, G. L., Dall'Acqua, A., Bomben, R., Perin, T., Cusan, M., Schiappacassi, M., Gerratana, L., D'Andrea, S., Citron, F., Vit, F., Musco, L., Mattevi, M. C., Mungo, G., Nicoloso, M. S., Sonego, M., Massarut, S., Sorio, R., Barzan, L., Franchin, G., Giorda, G., Lucia, E., Sulfaro, S., Giacomarra, V., Polesel, J., Toffolutti, F., Canzonieri, V., Puglisi, F., Gattei, V., Vecchione, A., Belletti, B., and Baldassarre, G.

Subjects
Male, 0301 basic medicine, DNA Copy Number Variations, CNV, Breast Neoplasms, Neuroendocrine tumors, medicine.disease_cause, head and neck squamous cell carcinoma, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, breast cancer, Intestinal Neoplasms, medicine, Humans, Copy-number variation, CDKN1B, copy number variation, liquid biopsy, mutation, ovarian cancer, p27, young breast cancer patients, Original Paper, Mutation, copy number variation, CNV, business.industry, Prostatic Neoplasms, medicine.disease, Original Papers, Head and neck squamous-cell carcinoma, Squamous carcinoma, Neuroendocrine Tumors, 030104 developmental biology, 030220 oncology & carcinogenesis, MCF-7 Cells, Cancer research, Female, business, Ovarian cancer, Cyclin-Dependent Kinase Inhibitor p27, CDK inhibitor
Abstract

The CDKN1B gene, encoding for the CDK inhibitor p27kip1, is mutated in defined human cancer subtypes, including breast, prostate carcinomas and small intestine neuroendocrine tumors. Lessons learned from small intestine neuroendocrine tumors suggest that CDKN1B mutations could be subclonal, raising the question of whether a deeper sequencing approach could lead to the identification of higher numbers of patients with mutations. Here, we addressed this question and analyzed human cancer biopsies from breast (n = 396), ovarian (n = 110) and head and neck squamous carcinoma (n = 202) patients, using an ultra‐deep sequencing approach. Notwithstanding this effort, the mutation rate of CDKN1B remained substantially aligned with values from the literature, showing that essentially only hormone receptor‐positive breast cancer displayed CDKN1B mutations in a relevant number of cases (3%). However, the analysis of copy number variation showed that another fraction of luminal breast cancer displayed loss (8%) or gain (6%) of the CDKN1B gene, further reinforcing the idea that the function of p27kip1 is important in this type of tumor. Intriguingly, an enrichment for CDKN1B alterations was found in samples from premenopausal luminal breast cancer patients (n = 227, 4%) and in circulating cell‐free DNA from metastatic luminal breast cancer patients (n = 59, 8.5%), suggesting that CDKN1B alterations could correlate with tumor aggressiveness and/or occur later during disease progression. Notably, many of the identified somatic mutations resulted in p27kip1 protein truncation, leading to loss of most of the protein or of its C‐terminal domain. Using a gene‐editing approach in a luminal breast cancer cell line, MCF‐7, we observed that the expression of p27kip1 truncating mutants that lose the C‐terminal domains failed to rescue most of the phenotypes induced by CDKN1B gene knockout, indicating that the functions retained by the C‐terminal portion are critical for its role as an oncosuppressor, at least in luminal breast cancer. © 2020 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland.

Published
2020

18. Clinical challenges in prostate cancer management: Metastatic bone-tropism and the role of circulating tumor cells.

Author

Guruvayurappan GK, Frankenbach-Désor T, Laubach M, Klein A, von Bergwelt-Baildon M, Cusan M, Aszodi A, Holzapfel BM, Böcker W, and Mayer-Wagner S

Subjects
Humans, Male, Prognosis, Neoplastic Cells, Circulating pathology, Neoplastic Cells, Circulating metabolism, Prostatic Neoplasms pathology, Bone Neoplasms secondary, Tumor Microenvironment
Abstract

Prostate cancer (PCa) metastasis is one of the leading causes of cancer-related mortality in men worldwide, primarily due to its tendency to metastasize, with bones of axial skeleton being the favored target-site. PCa bone-metastasis (PCa-BM) presents significant clinical challenges, especially by the weakening of bone architecture, majorly due to the formation of osteoblastic lesions, leading to severe bone fractures. Another complication is that the disease predominantly affects elderly men. Further exploration is required to understand how the circulating tumor cells (CTCs) adapt to varying microenvironments and other biomechanical stresses encountered during the sequential steps in metastasis, finally resulting in colonization specifically in the bone niche, in PCa-BM. Deciphering how CTCs encounter and adapt to different biochemical, biomechanical and microenvironmental factors may improve the prospects of PCa diagnosis, development of novel therapeutics and prognosis. Moreover, the knowledge developed is expected to have broader implications for cancer research, paving the way for better therapeutic strategies and targeted therapies in the realm of metastatic cancer progression across different types of cancers. Our review begins with analyzing the challenges in PCa diagnosis, treatment and management, and delves into the formation and dynamics of CTCs, highlighting their role in PCa metastasis and bone-tropism. We further explore the pivotal role of individual factors in dictating the predisposition of tumors to metastasize to specific secondary sites, such as the noteworthy tendency of PCa bone-metastasis. Finally, we highlight the unresolved questions and potential avenues for further exploration., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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19. Mitochondrial mechanotransduction through MIEF1 coordinates the nuclear response to forces.

Author

Romani P, Benedetti G, Cusan M, Arboit M, Cirillo C, Wu X, Rouni G, Kostourou V, Aragona M, Giampietro C, Grumati P, Martello G, and Dupont S

Subjects
Animals, Mice, Cell Proliferation, Humans, Extracellular Matrix metabolism, Cell Nucleus metabolism, Phosphorylation, Hepatocytes metabolism, NF-E2-Related Factor 2 metabolism, NF-E2-Related Factor 2 genetics, Actins metabolism, Actomyosin metabolism, Male, Mitochondrial Proteins metabolism, Mitochondrial Proteins genetics, Mice, Inbred C57BL, Mice, Knockout, Transcription Factors metabolism, Transcription Factors genetics, Liver metabolism, Mechanotransduction, Cellular, Mitochondrial Dynamics, Dynamins metabolism, Dynamins genetics, Mitochondria metabolism, YAP-Signaling Proteins metabolism, YAP-Signaling Proteins genetics, Peptide Elongation Factors metabolism, Peptide Elongation Factors genetics
Abstract

Tissue-scale architecture and mechanical properties instruct cell behaviour under physiological and diseased conditions, but our understanding of the underlying mechanisms remains fragmentary. Here we show that extracellular matrix stiffness, spatial confinements and applied forces, including stretching of mouse skin, regulate mitochondrial dynamics. Actomyosin tension promotes the phosphorylation of mitochondrial elongation factor 1 (MIEF1), limiting the recruitment of dynamin-related protein 1 (DRP1) at mitochondria, as well as peri-mitochondrial F-actin formation and mitochondrial fission. Strikingly, mitochondrial fission is also a general mechanotransduction mechanism. Indeed, we found that DRP1- and MIEF1/2-dependent fission is required and sufficient to regulate three transcription factors of broad relevance-YAP/TAZ, SREBP1/2 and NRF2-to control cell proliferation, lipogenesis, antioxidant metabolism, chemotherapy resistance and adipocyte differentiation in response to mechanical cues. This extends to the mouse liver, where DRP1 regulates hepatocyte proliferation and identity-hallmark YAP-dependent phenotypes. We propose that mitochondria fulfil a unifying signalling function by which the mechanical tissue microenvironment coordinates complementary cell functions., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published
2024
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20. CSF3R T618I Collaborates With RUNX1-RUNX1T1 to Expand Hematopoietic Progenitors and Sensitizes to GLI Inhibition.

Author

Swoboda AS, Arfelli VC, Danese A, Windisch R, Kerbs P, Redondo Monte E, Bagnoli JW, Chen-Wichmann L, Caroleo A, Cusan M, Krebs S, Blum H, Sterr M, Enard W, Herold T, Colomé-Tatché M, Wichmann C, and Greif PA

Abstract

Activating colony-stimulating factor-3 receptor gene ( CSF3R ) mutations are recurrent in acute myeloid leukemia (AML) with t(8;21) translocation. However, the nature of oncogenic collaboration between alterations of CSF3R and the t(8;21) associated RUNX1-RUNX1T1 fusion remains unclear. In CD34+ hematopoietic stem and progenitor cells from healthy donors, double oncogene expression led to a clonal advantage, increased self-renewal potential, and blast-like morphology and distinct immunophenotype. Gene expression profiling revealed hedgehog signaling as a potential mechanism, with upregulation of GLI2 constituting a putative pharmacological target. Both primary hematopoietic cells and the t(8;21) positive AML cell line SKNO-1 showed increased sensitivity to the GLI inhibitor GANT61 when expressing CSF3R T618I. Our findings suggest that during leukemogenesis, the RUNX1-RUNXT1 fusion and CSF3R mutation act in a synergistic manner to alter hedgehog signaling, which can be exploited therapeutically., Competing Interests: The authors have no conflicts of interest to disclose., (Copyright © 2023 the Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the European Hematology Association.)

Published
2023
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21. SF3B1 mutation and ATM deletion codrive leukemogenesis via centromeric R-loop dysregulation.

Author

Cusan M, Shen H, Zhang B, Liao A, Yang L, Jin M, Fernandez M, Iyer P, Wu Y, Hart K, Gutierrez C, Nik S, Pruett-Miller SM, Stark J, Obeng EA, Bowman TV, Wu CJ, Lin RJ, and Wang L

Subjects
Humans, R-Loop Structures, Phosphoproteins genetics, Phosphoproteins metabolism, Mutation, RNA Splicing Factors genetics, RNA Splicing Factors metabolism, Ataxia Telangiectasia Mutated Proteins metabolism, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Leukemia, Lymphocytic, Chronic, B-Cell pathology
Abstract

RNA splicing factor SF3B1 is recurrently mutated in various cancers, particularly in hematologic malignancies. We previously reported that coexpression of Sf3b1 mutation and Atm deletion in B cells, but not either lesion alone, leads to the onset of chronic lymphocytic leukemia (CLL) with CLL cells harboring chromosome amplification. However, the exact role of Sf3b1 mutation and Atm deletion in chromosomal instability (CIN) remains unclear. Here, we demonstrated that SF3B1 mutation promotes centromeric R-loop (cen-R-loop) accumulation, leading to increased chromosome oscillation, impaired chromosome segregation, altered spindle architecture, and aneuploidy, which could be alleviated by removal of cen-R-loop and exaggerated by deletion of ATM. Aberrant splicing of key genes involved in R-loop processing underlay augmentation of cen-R-loop, as overexpression of the normal isoform, but not the altered form, mitigated mitotic stress in SF3B1-mutant cells. Our study identifies a critical role of splice variants in linking RNA splicing dysregulation and CIN and highlights cen-R-loop augmentation as a key mechanism for leukemogenesis.

Published
2023
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23. Specific effects of somatic GATA2 zinc finger mutations on erythroid differentiation.

Author

Redondo Monte E, Leubolt G, Windisch R, Kerbs P, Dutta S, Landspersky T, Istvánffy R, Oostendorp RAJ, Chen-Wichmann L, Herold T, Cusan M, Schotta G, Wichmann C, and Greif PA

Subjects
Animals, Cell Differentiation genetics, Humans, K562 Cells, Mice, Mutation, Zinc Fingers, GATA2 Transcription Factor genetics, Leukemia, Erythroblastic, Acute genetics, Leukemia, Myeloid
Abstract

GATA2 zinc-finger (ZF) mutations are associated with distinct entities of myeloid malignancies. The specific distribution of these mutations points toward different mechanisms of leukemogenesis depending on the ZF domain affected. In this study, we compared recurring somatic mutations in ZF1 and ZF2. All tested ZF mutants disrupted DNA binding in vitro. In transcription assays, co-expression of FOG1 counteracted GATA2-dependent transcriptional activation, while a variable response to FOG1-mediated repression was observed for individual GATA2 mutants. In primary murine bone marrow cells, GATA2 wild-type (WT) expression inhibited colony formation, while this effect was reduced for both mutants A318T (ZF1) and L359V (ZF2) with a shift toward granulopoiesis. In primary human CD34 + bone marrow cells and in the myeloid cell line K562, ectopic expression of GATA2 L359V, but not A318T or G320D, caused a block of erythroid differentiation accompanied by downregulation of GATA1, STAT5B, and PLCG1. Our findings may explain the role of GATA2 L359V during the progression of chronic myeloid leukemia and the collaboration of GATA2 ZF1 alterations with CEBPA double mutations in erythroleukemia., (Copyright © 2022 ISEH -- Society for Hematology and Stem Cells. Published by Elsevier Inc. All rights reserved.)

Published
2022
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24. CDKN1B mutation and copy number variation are associated with tumor aggressiveness in luminal breast cancer.

Author

Viotto D, Russo F, Anania I, Segatto I, Rampioni Vinciguerra GL, Dall'Acqua A, Bomben R, Perin T, Cusan M, Schiappacassi M, Gerratana L, D'Andrea S, Citron F, Vit F, Musco L, Mattevi MC, Mungo G, Nicoloso MS, Sonego M, Massarut S, Sorio R, Barzan L, Franchin G, Giorda G, Lucia E, Sulfaro S, Giacomarra V, Polesel J, Toffolutti F, Canzonieri V, Puglisi F, Gattei V, Vecchione A, Belletti B, and Baldassarre G

Subjects
Breast Neoplasms pathology, Cyclin-Dependent Kinase Inhibitor p27 genetics, Female, Humans, Intestinal Neoplasms pathology, MCF-7 Cells, Male, Mutation, Neuroendocrine Tumors pathology, Prostatic Neoplasms pathology, Breast Neoplasms genetics, Cyclin-Dependent Kinase Inhibitor p27 metabolism, DNA Copy Number Variations, Intestinal Neoplasms genetics, Neuroendocrine Tumors genetics, Prostatic Neoplasms genetics
Abstract

The CDKN1B gene, encoding for the CDK inhibitor p27 kip1 , is mutated in defined human cancer subtypes, including breast, prostate carcinomas and small intestine neuroendocrine tumors. Lessons learned from small intestine neuroendocrine tumors suggest that CDKN1B mutations could be subclonal, raising the question of whether a deeper sequencing approach could lead to the identification of higher numbers of patients with mutations. Here, we addressed this question and analyzed human cancer biopsies from breast (n = 396), ovarian (n = 110) and head and neck squamous carcinoma (n = 202) patients, using an ultra-deep sequencing approach. Notwithstanding this effort, the mutation rate of CDKN1B remained substantially aligned with values from the literature, showing that essentially only hormone receptor-positive breast cancer displayed CDKN1B mutations in a relevant number of cases (3%). However, the analysis of copy number variation showed that another fraction of luminal breast cancer displayed loss (8%) or gain (6%) of the CDKN1B gene, further reinforcing the idea that the function of p27 kip1 is important in this type of tumor. Intriguingly, an enrichment for CDKN1B alterations was found in samples from premenopausal luminal breast cancer patients (n = 227, 4%) and in circulating cell-free DNA from metastatic luminal breast cancer patients (n = 59, 8.5%), suggesting that CDKN1B alterations could correlate with tumor aggressiveness and/or occur later during disease progression. Notably, many of the identified somatic mutations resulted in p27 kip1 protein truncation, leading to loss of most of the protein or of its C-terminal domain. Using a gene-editing approach in a luminal breast cancer cell line, MCF-7, we observed that the expression of p27 kip1 truncating mutants that lose the C-terminal domains failed to rescue most of the phenotypes induced by CDKN1B gene knockout, indicating that the functions retained by the C-terminal portion are critical for its role as an oncosuppressor, at least in luminal breast cancer. © 2020 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland., (© 2020 The Authors. The Journal of Pathology published by John Wiley & Sons, Ltd. on behalf of The Pathological Society of Great Britain and Ireland.)

Published
2021
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25. Leukemia Cell of Origin Influences Apoptotic Priming and Sensitivity to LSD1 Inhibition.

Author

Cai SF, Chu SH, Goldberg AD, Parvin S, Koche RP, Glass JL, Stein EM, Tallman MS, Sen F, Famulare CA, Cusan M, Huang CH, Chen CW, Zou L, Cordner KB, DelGaudio NL, Durani V, Kini M, Rex M, Tian HS, Zuber J, Baslan T, Lowe SW, Rienhoff HY Jr, Letai A, Levine RL, and Armstrong SA

Subjects
Apoptosis, Humans, Transcription Factors, Gene Expression Regulation, Leukemic genetics, Histone Demethylases antagonists & inhibitors, Leukemia physiopathology
Abstract

The cell of origin of oncogenic transformation is a determinant of therapeutic sensitivity, but the mechanisms governing cell-of-origin-driven differences in therapeutic response have not been delineated. Leukemias initiating in hematopoietic stem cells (HSC) are less sensitive to chemotherapy and highly express the transcription factor MECOM (EVI1) compared with leukemias derived from myeloid progenitors. Here, we compared leukemias initiated in either HSCs or myeloid progenitors to reveal a novel function for EVI1 in modulating p53 protein abundance and activity. HSC-derived leukemias exhibit decreased apoptotic priming, attenuated p53 transcriptional output, and resistance to lysine-specific demethylase 1 (LSD1) inhibitors in addition to classical genotoxic stresses. p53 loss of function in Evi1 lo progenitor-derived leukemias induces resistance to LSD1 inhibition, and EVI1 hi leukemias are sensitized to LSD1 inhibition by venetoclax. Our findings demonstrate a role for EVI1 in p53 wild-type cancers in reducing p53 function and provide a strategy to circumvent drug resistance in chemoresistant EVI1 hi acute myeloid leukemia. SIGNIFICANCE: We demonstrate that the cell of origin of leukemia initiation influences p53 activity and dictates therapeutic sensitivity to pharmacologic LSD1 inhibitors via the transcription factor EVI1. We show that drug resistance could be overcome in HSC-derived leukemias by combining LSD1 inhibition with venetoclax. See related commentary by Gu et al., p. 1445 . This article is highlighted in the In This Issue feature, p. 1426 ., (©2020 American Association for Cancer Research.)

Published
2020
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26. ZBTB7A prevents RUNX1-RUNX1T1-dependent clonal expansion of human hematopoietic stem and progenitor cells.

Author

Redondo Monte E, Wilding A, Leubolt G, Kerbs P, Bagnoli JW, Hartmann L, Hiddemann W, Chen-Wichmann L, Krebs S, Blum H, Cusan M, Vick B, Jeremias I, Enard W, Theurich S, Wichmann C, and Greif PA

Subjects
Animals, Bone Marrow pathology, Carcinogenesis drug effects, Cell Cycle Checkpoints genetics, Cell Differentiation drug effects, Cell Differentiation genetics, Cell Line, Tumor, Cell Lineage genetics, Core Binding Factor Alpha 2 Subunit genetics, DNA-Binding Proteins metabolism, Deoxyglucose pharmacology, Deoxyglucose therapeutic use, Gene Knockout Techniques, Glycolysis drug effects, Glycolysis genetics, Hematopoiesis drug effects, Hematopoietic Stem Cells pathology, Humans, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute pathology, Loss of Function Mutation, Mice, Myeloid Progenitor Cells pathology, Oncogene Proteins, Fusion genetics, RUNX1 Translocation Partner 1 Protein genetics, Tetradecanoylphorbol Acetate pharmacology, Transcription Factors metabolism, Xenograft Model Antitumor Assays, Carcinogenesis genetics, Core Binding Factor Alpha 2 Subunit metabolism, DNA-Binding Proteins genetics, Hematopoiesis genetics, Leukemia, Myeloid, Acute genetics, Oncogene Proteins, Fusion metabolism, RUNX1 Translocation Partner 1 Protein metabolism, Transcription Factors genetics
Abstract

ZBTB7A is frequently mutated in acute myeloid leukemia (AML) with t(8;21) translocation. However, the oncogenic collaboration between mutated ZBTB7A and the RUNX1-RUNX1T1 fusion gene in AML t(8;21) remains unclear. Here, we investigate the role of ZBTB7A and its mutations in the context of normal and malignant hematopoiesis. We demonstrate that clinically relevant ZBTB7A mutations in AML t(8;21) lead to loss of function and result in perturbed myeloid differentiation with block of the granulocytic lineage in favor of monocytic commitment. In addition, loss of ZBTB7A increases glycolysis and hence sensitizes leukemic blasts to metabolic inhibition with 2-deoxy-D-glucose. We observed that ectopic expression of wild-type ZBTB7A prevents RUNX1-RUNX1T1-mediated clonal expansion of human CD34+ cells, whereas the outgrowth of progenitors is enabled by ZBTB7A mutation. Finally, ZBTB7A expression in t(8;21) cells lead to a cell cycle arrest that could be mimicked by inhibition of glycolysis. Our findings suggest that loss of ZBTB7A may facilitate the onset of AML t(8;21), and that RUNX1-RUNX1T1-rearranged leukemia might be treated with glycolytic inhibitors.

Published
2020
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27. Landscape of CDKN1B Mutations in Luminal Breast Cancer and Other Hormone-Driven Human Tumors.

Author

Cusan M, Mungo G, De Marco Zompit M, Segatto I, Belletti B, and Baldassarre G

Abstract

The CDKN1B gene encodes for the p27 Kip1 protein, firstly characterized as a cyclin dependent kinase (CDK)-inhibitor. Germline CDKN1B pathogenic variants have been described in hereditary tumors, such as multiple endocrine neoplasia (MEN)-like syndromes and familial prostate cancer. Despite its central role in tumor progression, for a long time it has been proposed that CDKN1B was very rarely somatically mutated in human cancer and that its expression levels were almost exclusively regulated at post-transcriptional level. Yet, the advent of massive parallel sequencing has partially subverted this general understanding demonstrating that, at least in some types of cancer, CDKN1B is mutated in a significant percentage of analyzed samples. Recent works have demonstrated that CDKN1B can be genetically inactivated and this occurs particularly in sporadic luminal breast cancer, prostate cancer and small intestine neuroendocrine tumors. However, a clear picture of the extent and significance of CDKN1B mutations in human malignances is still lacking. To fill this gap, we interrogated the COSMIC, ICGC, cBioPortal, and TRANSFAC data portals and current literature in PubMed, and reviewed the mutational spectrum of CDKN1B in human cancers, interpreting the possible impact of these mutations on p27 Kip1 protein function and tumor onset and progression.

Published
2018
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28. LSD1 inhibition exerts its antileukemic effect by recommissioning PU.1- and C/EBPα-dependent enhancers in AML.

Author

Cusan M, Cai SF, Mohammad HP, Krivtsov A, Chramiec A, Loizou E, Witkin MD, Smitheman KN, Tenen DG, Ye M, Will B, Steidl U, Kruger RG, Levine RL, Rienhoff HY Jr, Koche RP, and Armstrong SA

Subjects
Animals, CCAAT-Enhancer-Binding Proteins genetics, Histone Demethylases genetics, Histone Demethylases metabolism, Leukemia, Biphenotypic, Acute genetics, Leukemia, Biphenotypic, Acute metabolism, Leukemia, Biphenotypic, Acute pathology, Mice, Neoplasm Proteins genetics, Neoplasm Proteins metabolism, Neoplasms, Experimental genetics, Neoplasms, Experimental metabolism, Neoplasms, Experimental pathology, Proto-Oncogene Proteins genetics, Response Elements, Trans-Activators genetics, CCAAT-Enhancer-Binding Proteins metabolism, Enzyme Inhibitors pharmacology, Histone Demethylases antagonists & inhibitors, Leukemia, Biphenotypic, Acute drug therapy, Neoplasm Proteins antagonists & inhibitors, Neoplasms, Experimental drug therapy, Proto-Oncogene Proteins metabolism, Trans-Activators metabolism
Abstract

Epigenetic regulators are recurrently mutated and aberrantly expressed in acute myeloid leukemia (AML). Targeted therapies designed to inhibit these chromatin-modifying enzymes, such as the histone demethylase lysine-specific demethylase 1 (LSD1) and the histone methyltransferase DOT1L, have been developed as novel treatment modalities for these often refractory diseases. A common feature of many of these targeted agents is their ability to induce myeloid differentiation, suggesting that multiple paths toward a myeloid gene expression program can be engaged to relieve the differentiation blockade that is uniformly seen in AML. We performed a comparative assessment of chromatin dynamics during the treatment of mixed lineage leukemia (MLL)-AF9-driven murine leukemias and MLL-rearranged patient-derived xenografts using 2 distinct but effective differentiation-inducing targeted epigenetic therapies, the LSD1 inhibitor GSK-LSD1 and the DOT1L inhibitor EPZ4777. Intriguingly, GSK-LSD1 treatment caused global gains in chromatin accessibility, whereas treatment with EPZ4777 caused global losses in accessibility. We captured PU.1 and C/EBPα motif signatures at LSD1 inhibitor-induced dynamic sites and chromatin immunoprecipitation coupled with high-throughput sequencing revealed co-occupancy of these myeloid transcription factors at these sites. Functionally, we confirmed that diminished expression of PU.1 or genetic deletion of C/EBPα in MLL-AF9 cells generates resistance of these leukemias to LSD1 inhibition. These findings reveal that pharmacologic inhibition of LSD1 represents a unique path to overcome the differentiation block in AML for therapeutic benefit., (© 2018 by The American Society of Hematology.)

Published
2018
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29. Loss of p27 kip1 increases genomic instability and induces radio-resistance in luminal breast cancer cells.

Author

Berton S, Cusan M, Segatto I, Citron F, D'Andrea S, Benevol S, Avanzo M, Dall'Acqua A, Schiappacassi M, Bristow RG, Belletti B, and Baldassarre G

Subjects
Animals, Breast Neoplasms, Cell Line, Tumor, Cell Survival genetics, Cyclin-Dependent Kinase Inhibitor p27 genetics, DNA Damage radiation effects, Female, Gene Expression, Gene Knockout Techniques, Humans, MCF-7 Cells, Mice, Micronuclei, Chromosome-Defective, Mitosis genetics, Mitosis radiation effects, Mutation, NIH 3T3 Cells, Cyclin-Dependent Kinase Inhibitor p27 deficiency, Genomic Instability, Radiation Tolerance genetics
Abstract

Genomic instability represents a typical feature of aggressive cancers. Normal cells have evolved intricate responses to preserve genomic integrity in response to stress, such as DNA damage induced by γ-irradiation. Cyclin-dependent kinases (CDKs) take crucial part to these safeguard mechanisms, but involvement of CDK-inhibitors, such as p27 Kip1 , is less clear. We generated immortalized fibroblasts from p27 kip1 knock-out (KO) mouse embryos and re-expressed p27 kip1 WT, or its mutant forms, to identify the function of different domains. We γ-irradiated fibroblasts and observed that loss of p27 Kip1 was associated to accumulation of residual DNA damage, increased number of mitotic aberration and, eventually, to survival advantage. Nuclear localization and cyclin/CDK-binding of p27 Kip1 were critical to mediate proper response to DNA damage. In human luminal breast cancer (LBC) p27 kip1 is frequently down-modulated and CDKN1B, p27 Kip1 gene, sporadically mutated. We recapitulated results obtained in mouse fibroblasts in a LBC cell line genetically manipulated to be KO for CDKN1B gene. Following γ-irradiation, we confirmed that p27 kip1 expression was necessary to preserve genomic integrity and to recognize and clear-out aberrant cells. Our study provides important insights into mechanisms underlying radio-resistance and unveils the possibility for novel treatment options exploiting DNA repair defects in LBC.

Published
2017
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30. Histone Acetyltransferase Activity of MOF Is Required for MLL-AF9 Leukemogenesis.

Author

Valerio DG, Xu H, Chen CW, Hoshii T, Eisold ME, Delaney C, Cusan M, Deshpande AJ, Huang CH, Lujambio A, Zheng YG, Zuber J, Pandita TK, Lowe SW, and Armstrong SA

Subjects
Animals, Cell Line, Tumor, DNA Damage, Female, Histone Acetyltransferases antagonists & inhibitors, Histones metabolism, Homeodomain Proteins genetics, Humans, Mice, Mice, Inbred C57BL, Nuclear Pore Complex Proteins genetics, Histone Acetyltransferases physiology, Leukemia etiology, Myeloid-Lymphoid Leukemia Protein genetics, Oncogene Proteins, Fusion genetics
Abstract

Chromatin-based mechanisms offer therapeutic targets in acute myeloid leukemia (AML) that are of great current interest. In this study, we conducted an RNAi-based screen to identify druggable chromatin regulator-based targets in leukemias marked by oncogenic rearrangements of the MLL gene. In this manner, we discovered the H4K16 histone acetyltransferase (HAT) MOF to be important for leukemia cell growth. Conditional deletion of Mof in a mouse model of MLL-AF9 -driven leukemogenesis reduced tumor burden and prolonged host survival. RNA sequencing showed an expected downregulation of genes within DNA damage repair pathways that are controlled by MOF, as correlated with a significant increase in yH2AX nuclear foci in Mof -deficient MLL-AF9 tumor cells. In parallel, Mof loss also impaired global H4K16 acetylation in the tumor cell genome. Rescue experiments with catalytically inactive mutants of MOF showed that its enzymatic activity was required to maintain cancer pathogenicity. In support of the role of MOF in sustaining H4K16 acetylation, a small-molecule inhibitor of the HAT component MYST blocked the growth of both murine and human MLL-AF9 leukemia cell lines. Furthermore, Mof inactivation suppressed leukemia development in an NUP98-HOXA9 -driven AML model. Taken together, our results establish that the HAT activity of MOF is required to sustain MLL-AF9 leukemia and may be important for multiple AML subtypes. Blocking this activity is sufficient to stimulate DNA damage, offering a rationale to pursue MOF inhibitors as a targeted approach to treat MLL -rearranged leukemias. Cancer Res; 77(7); 1753-62. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published
2017
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31. Controlled stem cell amplification by HOXB4 depends on its unique proline-rich region near the N terminus.

Author

Cusan M, Vegi NM, Mulaw MA, Bamezai S, Kaiser LM, Deshpande AJ, Greif PA, Quintanilla-Fend L, Göllner S, Müller-Tidow C, Humphries KR, Armstrong SA, Hiddemann W, Feuring-Buske M, and Buske C

Subjects
Acute Disease, Animals, Carcinogens, Homeodomain Proteins genetics, Mice, Proline, Sequence Analysis, Protein, Transcription Factors genetics, Cell Self Renewal, Hematopoietic Stem Cells physiology, Homeodomain Proteins physiology, Leukemia etiology, Transcription Factors physiology
Abstract

There is high interest in understanding the mechanisms that drive self-renewal of stem cells. HOXB4 is one of the few transcription factors that can amplify long-term repopulating hematopoietic stem cells in a controlled way. Here we show in mice that this characteristic of HOXB4 depends on a proline-rich sequence near the N terminus, which is unique among HOX genes and highly conserved in higher mammals. Deletion of this domain substantially enhanced the oncogenicity of HOXB4, inducing acute leukemia in mice. Conversely, insertion of the domain into Hoxa9 impaired leukemogenicity of this homeobox gene. These results indicate that proline-rich stretches attenuate the potential of stem cell active homeobox genes to acquire oncogenic properties., (© 2017 by The American Society of Hematology.)

Published
2017
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32. p27kip1 expression limits H-Ras-driven transformation and tumorigenesis by both canonical and non-canonical mechanisms.

Author

Pellizzari I, Fabris L, Berton S, Segatto I, Citron F, D'Andrea S, Cusan M, Benevol S, Perin T, Massarut S, Canzonieri V, Schiappacassi M, Belletti B, and Baldassarre G

Subjects
Animals, Breast Neoplasms genetics, Breast Neoplasms pathology, Carcinogenesis, Cell Line, Tumor, Cell Proliferation, Cyclin-Dependent Kinase Inhibitor p27 genetics, Cyclin-Dependent Kinases metabolism, Female, Gene Expression Regulation, Neoplastic, Genes, ras genetics, Humans, Mice, Mice, Nude, Phosphorylation, Sarcoma genetics, Sarcoma pathology, Stathmin metabolism, Xenograft Model Antitumor Assays, Breast Neoplasms metabolism, Cyclin-Dependent Kinase Inhibitor p27 metabolism, Sarcoma metabolism
Abstract

The tumor suppressor protein p27Kip1 plays a pivotal role in the control of cell growth and metastasis formation.Several studies pointed to different roles for p27Kip1 in the control of Ras induced transformation, although no explanation has been provided to elucidate these differences. We recently demonstrated that p27kip1 regulates H-Ras activity via its interaction with stathmin.Here, using in vitro and in vivo models, we show that p27kip1 is an important regulator of Ras induced transformation. In H-RasV12 transformed cells, p27kip1 suppressed cell proliferation and tumor growth via two distinct mechanisms: 1) inhibition of CDK activity and 2) impairment of MT-destabilizing activity of stathmin. Conversely, in K-Ras4BV12 transformed cells, p27kip1 acted mainly in a CDK-dependent but stathmin-independent manner.Using human cancer-derived cell lines and primary breast and sarcoma samples, we confirmed in human models what we observed in mice.Overall, we highlight a pathway, conserved from mouse to human, important in the regulation of H-Ras oncogenic activity that could have therapeutic and diagnostic implication in patients that may benefit from anti-H-Ras therapies.

Published
2016
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33. Targeting Chromatin Regulators Inhibits Leukemogenic Gene Expression in NPM1 Mutant Leukemia.

Author

Kühn MW, Song E, Feng Z, Sinha A, Chen CW, Deshpande AJ, Cusan M, Farnoud N, Mupo A, Grove C, Koche R, Bradner JE, de Stanchina E, Vassiliou GS, Hoshii T, and Armstrong SA

Subjects
Binding Sites, CRISPR-Cas Systems, Chromatin metabolism, Gene Expression Profiling, Gene Expression Regulation, Leukemic, Homeodomain Proteins metabolism, Humans, Leukemia, Myeloid, Acute genetics, Myeloid Ecotropic Viral Integration Site 1 Protein, Neoplasm Proteins metabolism, Nucleophosmin, Proto-Oncogene Proteins metabolism, fms-Like Tyrosine Kinase 3 metabolism, Histone-Lysine N-Methyltransferase metabolism, Leukemia, Myeloid, Acute metabolism, Methyltransferases metabolism, Mutation, Myeloid-Lymphoid Leukemia Protein metabolism, Nuclear Proteins genetics
Abstract

Homeobox (HOX) proteins and the receptor tyrosine kinase FLT3 are frequently highly expressed and mutated in acute myeloid leukemia (AML). Aberrant HOX expression is found in nearly all AMLs that harbor a mutation in the Nucleophosmin (NPM1) gene, and FLT3 is concomitantly mutated in approximately 60% of these cases. Little is known about how mutant NPM1 (NPM1 mut ) cells maintain aberrant gene expression. Here, we demonstrate that the histone modifiers MLL1 and DOT1L control HOX and FLT3 expression and differentiation in NPM1 mut AML. Using a CRISPR/Cas9 genome editing domain screen, we show NPM1 mut AML to be exceptionally dependent on the menin binding site in MLL1. Pharmacologic small-molecule inhibition of the menin-MLL1 protein interaction had profound antileukemic activity in human and murine models of NPM1 mut AML. Combined pharmacologic inhibition of menin-MLL1 and DOT1L resulted in dramatic suppression of HOX and FLT3 expression, induction of differentiation, and superior activity against NPM1 mut leukemia., Significance: MLL1 and DOT1L are chromatin regulators that control HOX, MEIS1, and FLT3 expression and are therapeutic targets in NPM1 mut AML. Combinatorial small-molecule inhibition has synergistic on-target activity and constitutes a novel therapeutic concept for this common AML subtype. Cancer Discov; 6(10); 1166-81. ©2016 AACR.See related commentary by Hourigan and Aplan, p. 1087This article is highlighted in the In This Issue feature, p. 1069., (©2016 American Association for Cancer Research.)

Published
2016
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34. Hematopoietic Differentiation Is Required for Initiation of Acute Myeloid Leukemia.

Author

Ye M, Zhang H, Yang H, Koche R, Staber PB, Cusan M, Levantini E, Welner RS, Bach CS, Zhang J, Krivtsov AV, Armstrong SA, and Tenen DG

Subjects
Animals, Disease Models, Animal, Granulocyte-Macrophage Colony-Stimulating Factor genetics, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Hematopoietic Stem Cells metabolism, Leukemia, Myeloid, Acute metabolism, Mice, Mice, Knockout, Cell Differentiation, Hematopoietic Stem Cells pathology, Leukemia, Myeloid, Acute pathology
Abstract

Mutations in acute myeloid leukemia (AML)-associated oncogenes often arise in hematopoietic stem cells (HSCs) and promote acquisition of leukemia stem cell (LSC) phenotypes. However, as LSCs often share features of lineage-restricted progenitors, the relative contribution of differentiation status to LSC transformation is unclear. Using murine MLL-AF9 and MOZ-TIF2 AML models, we show that myeloid differentiation to granulocyte macrophage progenitors (GMPs) is critical for LSC generation. Disrupting GMP formation by deleting the lineage-restricted transcription factor C/EBPa blocked normal granulocyte formation and prevented initiation of AML. However, restoring myeloid differentiation in C/EBPa mutants with inflammatory cytokines reestablished AML transformation capacity. Genomic analyses of GMPs, including gene expression and H3K79me2 profiling in conjunction with ATAC-seq, revealed a permissive genomic environment for activation of a minimal transcription program shared by GMPs and LSCs. Together, these findings show that myeloid differentiation is a prerequisite for LSC formation and AML development, providing insights for therapeutic development., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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35. Specific isotope labeling of colicin E1 and B channel domains for membrane topological analysis by oriented solid-state NMR spectroscopy.

Author

Aisenbrey C, Cusan M, Lambotte S, Jasperse P, Georgescu J, Harzer U, and Bechinger B

Subjects
Amino Acid Sequence, Colicins metabolism, Hot Temperature, Magnetic Resonance Spectroscopy, Mass Spectrometry, Methionine chemistry, Molecular Sequence Data, Nitrogen Isotopes, Phospholipids chemistry, Protein Structure, Tertiary, Protons, Sensitivity and Specificity, Cell Membrane chemistry, Colicins chemistry, Staining and Labeling methods
Abstract

An approach is presented to selectively label the methionines of the colicin E1 and B channel domains, each about 200 residues in size, and use them for oriented solid-state NMR investigations. By combining site-directed mutagenesis, bacterial overexpression in a methionine auxotroph E. coli strain and biochemical purification, quantitative amounts of the proteins for NMR structural investigations were obtained. The proteins were selectively labeled with (15)N at only one, or at a few, selected sites. Multidimensional heteronuclear correlation high-resolution NMR spectroscopy and mass spectrometry were used to monitor the quality of isotopic labeling. Thereafter the proteins were reconstituted into oriented phospholipid bilayers and investigated by proton-decoupled (15)N solid-state NMR spectroscopy. The colicin E1 thermolytic fragment that carries a single (15)N methionine within its hydrophobic helix 9 region exhibited (15)N resonances that are characteristic of helices that are oriented predominantly parallel to the membrane surface at low temperature, and a variety of alignments and conformations at room temperature. This suggests that the protein can adopt both umbrella and pen-knife conformations.

Published
2008
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36. Acute myeloid leukemia is propagated by a leukemic stem cell with lymphoid characteristics in a mouse model of CALM/AF10-positive leukemia.

Author

Deshpande AJ, Cusan M, Rawat VP, Reuter H, Krause A, Pott C, Quintanilla-Martinez L, Kakadia P, Kuchenbauer F, Ahmed F, Delabesse E, Hahn M, Lichter P, Kneba M, Hiddemann W, Macintyre E, Mecucci C, Ludwig WD, Humphries RK, Bohlander SK, Feuring-Buske M, and Buske C

Subjects
Animals, Biomarkers metabolism, Bone Marrow Transplantation, Cell Transformation, Neoplastic, Humans, Leukocyte Common Antigens metabolism, Macrophage-1 Antigen genetics, Macrophage-1 Antigen metabolism, Mice, Monomeric Clathrin Assembly Proteins genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Survival Rate, Disease Models, Animal, Hematopoietic Stem Cells physiology, Leukemia, Myeloid, Acute physiopathology, Monomeric Clathrin Assembly Proteins metabolism
Abstract

A challenge for the development of therapies selectively targeting leukemic stem cells in acute myeloid leukemia (AML) is their similarity to normal hematopoietic stem cells (HSCs). Here we demonstrate that the leukemia-propagating cell in murine CALM/AF10-positive AML differs from normal HSCs by B220 surface expression and immunoglobulin heavy chain rearrangement. Furthermore, depletion of B220+ cells in leukemic transplants impaired development of leukemia in recipients. As in the murine model, human CALM/AF10-positive AML was characterized by CD45RA (B220)-positive, IG DH-JH rearranged leukemic cells. These data demonstrate in a murine leukemia model that AML can be propagated by a transformed progenitor with lymphoid characteristics, which can be targeted by antibodies that do not crossreact with normal HSCs.

Published
2006
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37. The AML1-ETO fusion gene and the FLT3 length mutation collaborate in inducing acute leukemia in mice.

Author

Schessl C, Rawat VP, Cusan M, Deshpande A, Kohl TM, Rosten PM, Spiekermann K, Humphries RK, Schnittger S, Kern W, Hiddemann W, Quintanilla-Martinez L, Bohlander SK, Feuring-Buske M, and Buske C

Subjects
Animals, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism, Chromosomes, Human, Pair 21 genetics, Chromosomes, Human, Pair 8 genetics, Core Binding Factor Alpha 2 Subunit, Disease Models, Animal, Female, Genes, ras genetics, Hematopoietic Stem Cells metabolism, Hematopoietic Stem Cells pathology, Humans, Leukemia, Myeloid, Acute metabolism, Leukemia, Myeloid, Acute pathology, Leukopoiesis genetics, Male, Mice, Oncogene Proteins, Fusion metabolism, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-kit genetics, Proto-Oncogene Proteins c-kit metabolism, RUNX1 Translocation Partner 1 Protein, Receptor Protein-Tyrosine Kinases metabolism, Signal Transduction genetics, Transcription Factors metabolism, fms-Like Tyrosine Kinase 3, Leukemia, Myeloid, Acute genetics, Oncogene Proteins, Fusion genetics, Proto-Oncogene Proteins genetics, Receptor Protein-Tyrosine Kinases genetics, Transcription Factors genetics, Translocation, Genetic
Abstract

The molecular characterization of leukemia has demonstrated that genetic alterations in the leukemic clone frequently fall into 2 classes, those affecting transcription factors (e.g., AML1-ETO) and mutations affecting genes involved in signal transduction (e.g., activating mutations of FLT3 and KIT). This finding has favored a model of leukemogenesis in which the collaboration of these 2 classes of genetic alterations is necessary for the malignant transformation of hematopoietic progenitor cells. The model is supported by experimental data indicating that AML1-ETO and FLT3 length mutation (FLT3-LM), 2 of the most frequent genetic alterations in AML, are both insufficient on their own to cause leukemia in animal models. Here we report that AML1-ETO collaborates with FLT3-LM in inducing acute leukemia in a murine BM transplantation model. Moreover, in a series of 135 patients with AML1-ETO-positive AML, the most frequently identified class of additional mutations affected genes involved in signal transduction pathways including FLT3-LM or mutations of KIT and NRAS. These data support the concept of oncogenic cooperation between AML1-ETO and a class of activating mutations, recurrently found in patients with t(8;21), and provide a rationale for therapies targeting signal transduction pathways in AML1-ETO-positive leukemias.

Published
2005
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38. Ectopic expression of the homeobox gene Cdx2 is the transforming event in a mouse model of t(12;13)(p13;q12) acute myeloid leukemia.

Author

Rawat VP, Cusan M, Deshpande A, Hiddemann W, Quintanilla-Martinez L, Humphries RK, Bohlander SK, Feuring-Buske M, and Buske C

Subjects
Animals, Bone Marrow Transplantation, CDX2 Transcription Factor, Cell Transformation, Neoplastic genetics, Chromosomes, Human, Pair 12 genetics, Chromosomes, Human, Pair 13 genetics, Disease Models, Animal, Gene Expression, Humans, Leukemia, Myeloid, Acute pathology, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Transgenic, Myeloid Ecotropic Viral Integration Site 1 Protein, Neoplasm Proteins genetics, Oncogene Proteins, Fusion genetics, Trans-Activators, Translocation, Genetic, Genes, Homeobox, Homeodomain Proteins genetics, Leukemia, Myeloid, Acute genetics
Abstract

Creation of fusion genes by balanced chromosomal translocations is one of the hallmarks of acute myeloid leukemia (AML) and is considered one of the key leukemogenic events in this disease. In t(12;13)(p13;q12) AML, ectopic expression of the homeobox gene CDX2 was detected in addition to expression of the ETV6-CDX2 fusion gene, generated by the chromosomal translocation. Here we show in a murine model of t(12;13)(p13;q12) AML that myeloid leukemogenesis is induced by the ectopic expression of CDX2 and not by the ETV6-CDX2 chimeric gene. Mice transplanted with bone marrow cells retrovirally engineered to express Cdx2 rapidly succumbed to fatal and transplantable AML. The transforming capacity of Cdx2 depended on an intact homeodomain and the N-terminal transactivation domain. Transplantation of bone marrow cells expressing ETV6-CDX2 failed to induce leukemia. Furthermore, coexpression of ETV6-CDX2 and Cdx2 in bone marrow cells did not accelerate the course of disease in transplanted mice compared to Cdx2 alone. These data demonstrate that activation of a protooncogene by a balanced chromosomal translocation can be the pivotal leukemogenic event in AML, characterized by the expression of a leukemia-specific fusion gene. Furthermore, these findings link protooncogene activation to myeloid leukemogenesis, an oncogenic mechanism so far associated mainly with lymphoid leukemias and lymphomas.

Published
2004
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39. Guanidine hydrochloride induced equilibrium unfolding studies of colicin B and its channel-forming fragment.

Author

Sathish HA, Cusan M, Aisenbrey C, and Bechinger B

Subjects
Calorimetry, Differential Scanning, Circular Dichroism, Hydrogen-Ion Concentration, Protein Denaturation, Protein Structure, Secondary, Protein Structure, Tertiary, Spectrometry, Fluorescence, Thermodynamics, Tryptophan chemistry, Colicins chemistry, Guanidine chemistry, Peptide Fragments chemistry, Protein Folding
Abstract

The conformational stabilities of full-length colicin B and its isolated C-terminal domain were studied by guanidine hydrochloride induced unfolding. The unfolding/refolding was monitored by far-UV CD and intrinsic tryptophan fluorescence spectroscopies. At pH 7.4, the disruption of the secondary structure of full-length colicin B is monophasic, while changes in tertiary structure occur in two separate transitions. The intermediate species, which is well-populated around 2.2 M guanidine hydrochloride, exhibits secondary and tertiary structures distinct from both native and unfolded states. Whereas the domain structure of native full-length colicin B is reflected in its DSC profile, the folding intermediate of the same protein exhibits a single unresolved peak. These observations have led us to propose an unfolding model for full-length colicin B where the first transition between 0 and 2.5 M GuHCl with an associated free energy of 3 kcal/mol correlates with the partial unfolding of the R/T domain. The stability of full-length colicin B is weakened due to the presence of the R/T domain in both the native [Ortega, A., Lambotte, S., and Bechinger, B. (2001) J. Biol. Chem. 276 (17), 13563-13572] and the intermediate states. The second transition between 2.5 and 5 M GuHCl involves unfolding of the C-terminal domain (Delta = 7 kcal/mol). The isolated colicin B C-terminal domain consists of two subdomains, and the two parts of this protein fragment unfold sequentially through the formation of at least one intermediate. The significance of these results for membrane insertion of colicin B is discussed.

Published
2002
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40. Evaluation of a near-patient test and 2 enzyme-linked immunosorbent assay-based assays for detecting anti-herpes simplex virus type-2 antibodies.

Author

Palù G, Calistri A, Cancellotti E, Cusan M, and Mengoli C

Subjects
Blotting, Western methods, Double-Blind Method, Humans, Sensitivity and Specificity, Antibodies, Viral analysis, Enzyme-Linked Immunosorbent Assay methods, Herpesvirus 1, Human immunology, Herpesvirus 2, Human immunology, Reagent Kits, Diagnostic
Abstract

Several type-specific serologic assays for herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2), based on glycoprotein G1 (gG1) and gG2, have recently been developed. These include immunodot (POCkit HSV-2) and enzyme-linked immunosorbent assay (ELISA). The diagnostic value of POCkit HSV-2, a near-patient test, and of 2 immunoenzymatic, type-specific assays was evaluated on 122 patients attending an STD clinic. Western blot was used as the reference test. The sensitivity of POCkit HSV-2 was good but the specificity was poor, so that in a population with low seroprevalence, a positive result is likely to be a false positive. Analysis of 2 currently available HSV type-specific ELISAs yielded results suggesting that the sensitivity of these tests may also be suboptimal.

Published
2001
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41. Typing of hepatitis C virus by a new method based on restriction fragment length polymorphism.

Author

Buoro S, Pizzighella S, Boschetto R, Pellizzari L, Cusan M, Bonaguro R, Mengoli C, Caudai C, Padula M, Egisto Valensin P, and Palù G

Subjects
Base Sequence, Female, Genotype, Hepacivirus classification, Hepatitis C virology, Humans, Male, Molecular Sequence Data, RNA, Viral genetics, Hepacivirus genetics, Polymorphism, Restriction Fragment Length
Abstract

A new restriction fragment length polymorphism (RFLP) analysis has been developed for hepatitis C virus (HCV) typing in the viral 5' non-coding region and contiguous core region. These genomic sequences were chosen for the relative nucleotide homology among different genotypes and for the presence of polymorphic sites. By employing two endonucleases (AccI and MboI) and, in some instances, a third one (EcoRII), we can unambiguously and reproducibly distinguish between genotypes and subtypes 1a, 1b, 1c, 2a, 2c, 2b, 3a, 3b, 4a, 5a and 6a. The method was applied for diagnosing two Italian groups of HCV-infected individuals reflecting a randomly collected population and a group of intravenous drug users. The accuracy of this method has been validated by comparison with INNOLiPA and by sequencing. Our approach represents an improvement over previous RFLP methods, since typing is accurate and simpler.

Published
1999
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