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Roberto Chiarle, MD

Associate Professor, Department of Pathology, Harvard Medical School

Research PI, Pathology, Boston Children's Hospital

Contact Info

Roberto Chiarle
Children's Hospital Boston
320 Longwood Avenue

Boston, MA, 02115
Phone: 617-919-2662
Fax: 617-730-0148
roberto.chiarle@childrens.harvard.edu

Assistant

Fernanda Langellotto
Pathology
Boston Children's Hospital
320 Longwood Ave
Enders 1116.1
Boston, MA, 02115
Phone: 617-355-7433
fernanda.langellotto@childrens.harvard.edu

DF/HCC Program Affiliation

Lymphoma and Myeloma
Cancer Immunology

Lab Website

http://chiarle.tch.harvard.edu

Research Abstract

My laboratory is interested in mechanisms and therapy of cancers. In the past years, I have been working on different types of hematologic and solid cancers. Most lymphomas, but also an increasing number of solid tumors, are characterized by defined chromosomal translocations. The products of such translocations control tumor growth, confer precise biological characteristics to the tumors and can be targeted by specific therapies. In lymphoma, the translocations involving the Anaplastic Lymphoma Kinase (ALK) gene are characteristic of Anaplastic Large Cell Lymphoma (ALCL), but were recently found also in Non-Small Cell Lung Cancers (NSCLC) and other type of solid tumors. We have extensively studied the role of ALK in lymphoma and discovered multiple pathways essential to induce cellular transformation. By exploiting xenografts and mouse models for ALCL and NSCLC, and also neuroblastoma, we want to define relevant mechanisms of ALK-mediated transformation in vivo but also to validate therapeutic approaches to target ALK in such cancers. We are currently implementing innovative therapies such as ALK inhibitors, ALK-targeted siRNA and ALK-directed cancer immunotherapy. In this context, we developed a vaccination protocol that generates a strong ALK-specific immunization and seek to explore its potential use in clinical protocols.

Another main focus of the lab is to elucidate the mechanisms that govern the formation of chromosomal translocations in normal and neoplastic cells. In collaboration with other researches, we developed a method to map translocations at a genome-wide level, thus initiating a series of studies aimed at defining general rules for translocation formation, focusing on how transcription, DNA Double Strand Breaks (DBSs) availability and position, tissue specificity and other nuclear or DNA repair factors can influence the type and the frequency of translocations found in human cancers.

One more line of research in the lab is devoted to the discovery of novel genetic lesions in lymphoma and solid tumors, by modern techniques of next-generation sequencing. In particular, we recently co-discovered mutations in FBXO11, a gene involved in the degradation of BCL6 in human lymphomas. We aim at expanding these findings to other lymphomas or solid tumors, and at generating mouse models to uncover the roles of these genes in normal B cell development and lymphoma formation.

Publications

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