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2. Expanded circulating hematopoietic stem/progenitor cells as novel cell source for the treatment of TCIRG1 osteopetrosis

Author

Capo, V, Penna, S, Merelli, I, Barcella, M, Scala, S, Basso-Ricci, L, Draghici, E, Palagano, E, Zonari, E, Desantis, G, Uva, P, Cusano, R, Sergi Sergi, L, Crisafulli, L, Moshous, D, Stepensky, P, Drabko, K, Kaya, Z, Unal, E, Gezdirici, A, Menna, G, Serafini, M, Aiuti, A, Locatelli, S, Carlo-Stella, C, Schulz, A, Ficara, F, Sobacchi, C, Gentner, B, Villa, A, Capo, Valentina, Penna, Sara, Merelli, Ivan, Barcella, Matteo, Scala, Serena, Basso-Ricci, Luca, Draghici, Elena, Palagano, Eleonora, Zonari, Erika, Desantis, Giacomo, Uva, Paolo, Cusano, Roberto, Sergi Sergi, Lucia, Crisafulli, Laura, Moshous, Despina, Stepensky, Polina, Drabko, Katarzyna, Kaya, Zühre, Unal, Ekrem, Gezdirici, Alper, Menna, Giuseppe, Serafini, Marta, Aiuti, Alessandro, Locatelli, Silvia Laura, Carlo-Stella, Carmelo, Schulz, Ansgar S, Ficara, Francesca, Sobacchi, Cristina, Gentner, Bernhard, Villa, Anna, Capo, V, Penna, S, Merelli, I, Barcella, M, Scala, S, Basso-Ricci, L, Draghici, E, Palagano, E, Zonari, E, Desantis, G, Uva, P, Cusano, R, Sergi Sergi, L, Crisafulli, L, Moshous, D, Stepensky, P, Drabko, K, Kaya, Z, Unal, E, Gezdirici, A, Menna, G, Serafini, M, Aiuti, A, Locatelli, S, Carlo-Stella, C, Schulz, A, Ficara, F, Sobacchi, C, Gentner, B, Villa, A, Capo, Valentina, Penna, Sara, Merelli, Ivan, Barcella, Matteo, Scala, Serena, Basso-Ricci, Luca, Draghici, Elena, Palagano, Eleonora, Zonari, Erika, Desantis, Giacomo, Uva, Paolo, Cusano, Roberto, Sergi Sergi, Lucia, Crisafulli, Laura, Moshous, Despina, Stepensky, Polina, Drabko, Katarzyna, Kaya, Zühre, Unal, Ekrem, Gezdirici, Alper, Menna, Giuseppe, Serafini, Marta, Aiuti, Alessandro, Locatelli, Silvia Laura, Carlo-Stella, Carmelo, Schulz, Ansgar S, Ficara, Francesca, Sobacchi, Cristina, Gentner, Bernhard, and Villa, Anna

Abstract

Allogeneic hematopoietic stem cell transplantation is the treatment of choice for autosomal recessive osteopetrosis caused by defects in the TCIRG1 gene. Despite recent progress in conditioning, a relevant number of patients are not eligible for allogeneic stem cell transplantation because of the severity of the disease and significant transplant-related morbidity. We exploited peripheral CD34+ cells, known to circulate at high frequency in the peripheral blood of TCIRG1-deficient patients, as a novel cell source for autologous transplantation of gene corrected cells. Detailed phenotypical analysis showed that circulating CD34+ cells have a cellular composition that resembles bone marrow, supporting their use in gene therapy protocols. Transcriptomic profile revealed enrichment in genes expressed by hematopoietic stem and progenitor cells (HSPCs). To overcome the limit of bone marrow harvest/ HSPC mobilization and serial blood drawings in TCIRG1 patients, we applied UM171-based ex-vivo expansion of HSPCs coupled with lentiviral gene transfer. Circulating CD34+ cells from TCIRG1-defective patients were transduced with a clinically-optimized lentiviral vector (LV) expressing TCIRG1 under the control of phosphoglycerate promoter and expanded ex vivo. Expanded cells maintained long-term engraftment capacity and multi-lineage repopulating potential when transplanted in vivo both in primary and secondary NSG recipients. Moreover, when CD34+ cells were differentiated in vitro, genetically corrected osteoclasts resorbed the bone efficiently. Overall, we provide evidence that expansion of circulating HSPCs coupled to gene therapy can overcome the limit of stem cell harvest in osteopetrotic patients, thus opening the way to future gene-based treatment of skeletal diseases caused by bone marrow fibrosis.

Published
2021

3. Targeted Gene Correction in Osteopetrotic-Induced Pluripotent Stem Cells for the Generation of Functional Osteoclasts

Author

Neri T, Muggeo S, Paulis M, Caldana ME, Crisafulli L, Strina D, Focarelli ML, Faggioli F, Recordati C, Scaramuzza S, Scanziani E, Mantero S, Buracchi C, Sobacchi C, Vezzoni P, Villa A, Ficara F., LOMBARDO, ANGELO LEONE, NALDINI , LUIGI, Neri, T, Muggeo, S, Paulis, M, Elena Caldana, M, Crisafulli, L, Strina, D, Luisa Focarelli, M, Faggioli, F, Recordati, C, Scaramuzza, S, Scanziani, E, Mantero, S, Buracchi, C, Sobacchi, C, Lombardo, A, Naldini, L, Vezzoni, P, Villa, A, Ficara, F, Caldana, Me, Focarelli, Ml, Lombardo, ANGELO LEONE, Naldini, Luigi, and Ficara, F.

Subjects
Cellular differentiation, Osteoclasts, Biochemistry, Induced Pluripotent Stem Cell, Mice, 0302 clinical medicine, Osteopetrosi, Hematopoiesi, Myeloid Cells, Induced pluripotent stem cell, lcsh:QH301-705.5, Myeloid Cell, 0303 health sciences, lcsh:R5-920, Targeted Gene Repair, Vacuolar Proton-Translocating ATPase, Cell Differentiation, 3. Good health, Cell biology, Haematopoiesis, 030220 oncology & carcinogenesis, Osteopetrosis, Osteoclast, lcsh:Medicine (General), Human, Vacuolar Proton-Translocating ATPases, Induced Pluripotent Stem Cells, Biology, Article, Cell Line, 03 medical and health sciences, stem cells, Genetics, medicine, Animals, Humans, Gene, 030304 developmental biology, Animal, Cell Biology, medicine.disease, Hematopoiesis, Mice, Inbred C57BL, lcsh:Biology (General), Cell culture, Immunology, Mutation, Homologous recombination, Developmental Biology
Abstract

Summary Autosomal recessive osteopetrosis is a human bone disease mainly caused by TCIRG1 gene mutations that prevent osteoclasts resorbing activity, recapitulated by the oc/oc mouse model. Bone marrow transplantation is the only available treatment, limited by the need for a matched donor. The use of induced pluripotent stem cells (iPSCs) as an unlimited source of autologous cells to generate gene corrected osteoclasts might represent a powerful alternative. We generated iPSCs from oc/oc mice, corrected the mutation using a BAC carrying the entire Tcirg1 gene locus as a template for homologous recombination, and induced hematopoietic differentiation. Similarly to physiologic fetal hematopoiesis, iPSC-derived CD41+ cells gradually gave rise to CD45+ cells, which comprised both mature myeloid cells and high proliferative potential colony-forming cells. Finally, we differentiated the gene corrected iPSC-derived myeloid cells into osteoclasts with rescued bone resorbing activity. These results are promising for a future translation into the human clinical setting., Graphical Abstract, Highlights • iPSCs from oc/oc mice bearing Tcirg1 gene mutation were generated for the first time • A BAC-based approach corrects the Tcirg1 gene mutation • iPSCs differentiate similarly to physiologic fetal hematopoiesis • The osteopetrotic phenotype in osteoclasts from BAC-corrected iPSCs was rescued, In this article, Villa and colleagues present a multistep strategy by which iPSCs are generated from osteopetrotic mice, genetically corrected by homologous recombination using a BAC carrying the entire Tcirg1 gene locus, and differentiated toward hematopoietic early progenitors able to give rise to functional osteoclasts, rescuing the defective cellular phenotype.

Published
2015

4. Targeted gene correction in osteopetrotic-induced pluripotent stem cells for the generation of functional osteoclasts

Author

Neri, T, Muggeo, S, Paulis, M, Elena Caldana, M, Crisafulli, L, Strina, D, Luisa Focarelli, M, Faggioli, F, Recordati, C, Scaramuzza, S, Scanziani, E, Mantero, S, Buracchi, C, Sobacchi, C, Lombardo, A, Naldini, L, Vezzoni, P, Villa, A, Ficara, F, Neri, T, Muggeo, S, Paulis, M, Elena Caldana, M, Crisafulli, L, Strina, D, Luisa Focarelli, M, Faggioli, F, Recordati, C, Scaramuzza, S, Scanziani, E, Mantero, S, Buracchi, C, Sobacchi, C, Lombardo, A, Naldini, L, Vezzoni, P, Villa, A, and Ficara, F

Abstract

Autosomal recessive osteopetrosis is a human bone disease mainly caused by TCIRG1 gene mutations that prevent osteoclasts resorbing activity, recapitulated by the oc/oc mouse model. Bone marrow transplantation is the only available treatment, limited by the need for a matched donor. The use of induced pluripotent stem cells (iPSCs) as an unlimited source of autologous cells to generate gene corrected osteoclasts might represent a powerful alternative. We generated iPSCs from oc/oc mice, corrected the mutation using a BAC carrying the entire Tcirg1 gene locus as a template for homologous recombination, and induced hematopoietic differentiation. Similarly to physiologic fetal hematopoiesis, iPSC-derived CD41+ cells gradually gave rise to CD45+ cells, which comprised both mature myeloid cells and high proliferative potential colony-forming cells. Finally, we differentiated the gene corrected iPSC-derived myeloid cells into osteoclasts with rescued bone resorbing activity. These results are promising for a future translation into the human clinical setting.

Published
2015

6. Round Tables.

Author

Brown, I., Crisafulli, L. M., Alexander, V., Rudaityte, R., de Filippis, S., Facchinetti, R., Bondi, M., Argondizzo, C., Katsarska, M., Hansen-Pauly, M.-A., Greere, A., Klitgård, I., Orestano, F., Haas, R., Rowland, A., Charnock, R., Fiorato, S., Wymer, R., Rainsford, D., and Bak, J. S.

Subjects
*LECTURES & lecturing, *LITERARY societies, *LEARNING strategies, *SCOTTISH literature
Abstract

The article presents abstracts on English studies topics which include the writing Scottish literary histories by several authors including Robert Crawford and Roderick Watson, the explanation to a broader interuniversity collaborative project involving large network of Italian universities, and the global phenomenon of terrorism for teachers and research in English literature.

Published
2011

9. Introduction (Part II)

Author

CRISAFULLI, LILLA MARIA, rajan t., CRISAFULLI L, RAJAN T, SAGLIA D, crisafulli l, and rajan t

Subjects
EUROPEAN ROMANTICISM, TRANSNATIONAL ENCOUNTERS, EPISTEMIC ENCOUNTERS, TRAGEDY, ENCOUNTERING COMMUNITIY
Abstract

Introduction to volume on tragedy in European romanticism, with particular reference to the questions of transnational, epistemic and community encounters

Published
2011

10. Expanded circulating hematopoietic stem/progenitor cells as novel cell source for the treatment of TCIRG1 osteopetrosis

Author

Lucia Sergi Sergi, Polina Stepensky, Roberto Cusano, Serena Scala, Alper Gezdirici, Paolo Uva, Cristina Sobacchi, Bernhard Gentner, Eleonora Palagano, Ekrem Unal, Valentina Capo, Elena Draghici, Alessandro Aiuti, Ivan Merelli, Silvia L. Locatelli, Zühre Kaya, Carmelo Carlo-Stella, Ansgar Schulz, Laura Crisafulli, Luca Basso-Ricci, Francesca Ficara, Marta Serafini, Giacomo Desantis, Despina Moshous, Erika Zonari, Sara Penna, Giuseppe Menna, Matteo Barcella, Katarzyna Drabko, Anna Villa, Capo, V, Penna, S, Merelli, I, Barcella, M, Scala, S, Basso-Ricci, L, Draghici, E, Palagano, E, Zonari, E, Desantis, G, Uva, P, Cusano, R, Sergi Sergi, L, Crisafulli, L, Moshous, D, Stepensky, P, Drabko, K, Kaya, Z, Unal, E, Gezdirici, A, Menna, G, Serafini, M, Aiuti, A, Locatelli, S, Carlo-Stella, C, Schulz, A, Ficara, F, Sobacchi, C, Gentner, B, Villa, A, Capo, Valentina, Penna, Sara, Merelli, Ivan, Barcella, Matteo, Scala, Serena, Basso-Ricci, Luca, Draghici, Elena, Palagano, Eleonora, Zonari, Erika, Desantis, Giacomo, Uva, Paolo, Cusano, Roberto, Sergi Sergi, Lucia, Crisafulli, Laura, Moshous, Despina, Stepensky, Polina, Drabko, Katarzyna, Kaya, Zühre, Unal, Ekrem, Gezdirici, Alper, Menna, Giuseppe, Serafini, Marta, Aiuti, Alessandro, Locatelli, Silvia Laura, Carlo-Stella, Carmelo, Schulz, Ansgar S, Ficara, Francesca, Sobacchi, Cristina, Gentner, Bernhard, and Villa, Anna

Subjects
Vacuolar Proton-Translocating ATPases, Genetic enhancement, medicine.medical_treatment, CD34, Osteoclasts, Antigens, CD34, Hematopoietic stem cell transplantation, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Progenitor cell, 030304 developmental biology, 0303 health sciences, hematopoietic stem cell bone marrow failure stem cell transplantation Gene Therapy and Transfer HSPC expansion, Hematopoietic Stem Cell Transplantation, Hematopoietic stem cell, Hematopoietic Stem Cell, Genetic Therapy, Hematology, Hematopoietic Stem Cells, Bone Marrow Failure, HSPC expansion, Haematopoiesis, medicine.anatomical_structure, Gene Therapy and Transfer, Osteopetrosis, 030220 oncology & carcinogenesis, Cancer research, Bone marrow, Stem cell, Stem Cell Transplantation
Abstract

Allogeneic hematopoietic stem cell transplantation is the treatment of choice for autosomal recessive osteopetrosis caused by defects in the TCIRG1 gene. Despite recent progress in conditioning, an important number of patients are not eligible for allogeneic stem cell transplantation because of the severity of the disease and significant transplant-related morbidity. We exploited peripheral CD34(+) cells, known to circulate at high frequency in the peripheral blood of TCIRG1-deficient patients, as a novel cell source for autologous transplantation of gene corrected cells. Detailed phenotypical analysis showed that circulating CD34(+). cells have a cellular composition that resembles bone marrow (BM), supporting their use in gene therapy protocols. Transcriptomic profile revealed enrichment in genes expressed by hematopoietic stem and progenitor cells (HSPC). To overcome the limit of BM harvest/HSPC mobilization and serial blood drawings in TCIRG1 patients, we applied UM171-based ex vivo expansion of HSPC coupled with lentiviral gene transfer. Circulating CD34(+). cells from TCIRG1-defective patients were transduced with a clinically-optimized lentiviral vector expressing TCIRG1 under the control of phosphoglycerate promoter and expanded ex vivo. Expanded cells maintained long-term engraftment capacity and multi-lineage repopulating potential when transplanted in vivo both in primary and secondary NOD scid gamma common chain (NSG) recipients. Moreover, when CD34(+) cells were differentiated in vitro, genetically corrected osteoclasts resorbed the bone efficiently. Overall, we provide evidence that expansion of circulating HSPC coupled to gene therapy can overcome the limit of stem cell harvest in osteopetrotic patients, thus opening the way to future gene-based treatment of skeletal diseases caused by BM fibrosis.

Published
2020

11. Introduzione

Author

CRISAFULLI, LILLA MARIA, CURRAN S., CRISAFULLI L, and CURRAN S

Subjects
RENAISSANCE, CONTINUITIES, ENGLISH LITERATURE, ROMANTICISM, DISCONTINUITIES
Abstract

Introduction to the issue of Textus, edited by the author and Stuart Curran, dedicated to "Renaissance and Romanticism: Continuities and Discontinuities in the Transmission of Literary and Cultural Models"

Published
2011

14. WOMEN ROMANCE WRITERS: MARY TIGHE AND MARY HAYS

Author

Cecilia Pietropoli, CRISAFULLI L. M., PIETROPOLI C., and Pietropoli C.

Subjects
ROMANTIC PERIOD, History, POETICS, WOMEN POETS, GENRES, Performance art, GENDER, Theology, Romance, Classics
Abstract

Romantic Women Poets. Genre and Gender focuses on the part played by women in the creation of the literary canon in the Romantic period in Britain. Its thirteen essays enrich our panoramic view of an age that is traditionally dominated by male authors such as Wordsworth, Coleridge, Byron, Shelley, Keats and Scott. Instead this volume concentrates on the poetical theory and practice of such extraordinary and fascinating women as Joanna Baillie, Charlotte Smith, Anna Laetitia Barbauld, Dorothy Wordsworth, Helen Maria Williams, Lady Morgan, Ann Radcliffe, Mary Shelley, Letitia Elizabeth Landon, Anna Seward, and Lady Caroline Lamb. Female and male poetics, gender and genres, literary forms and poetic modes are extensively discussed together with the diversity of behaviour and personal responses that the individual women poets offered to their age and provoked in their readers.

Published
2007

15. Elogio dell'arabesco: l’opera dell'arte e il tema della corrispondenza sensoriale

Author

MILANI, RAFFAELE, RAIMONDI E., CAPRIOLI A., DALMONTE R., CRISAFULLI L. M., CAPRIOLI A., and MILANI R.

Subjects
MUSICA, ROMANTICISMO, POESIA, ARTE, FILOSOFIA
Abstract

SUL PRINCIPIO DELLA FIGURAZIONE NEL SIMBOLICO, L'ARABESCO DIVENTA LO SCHEMA CREATIVO DI UN'ANTICIPAZIONE AURORALE DELLE FORME RISPETTO AL REGNO DELLE ARTI E DEI SENSI. NELLA VITA VIVENTE DELL'ARABESCO MUSICALE LA CONTEMPLAZIONE SI SPECCHIA NEL DISEGNO DELLA PURA FANTASIA.

Published
2005

16. Correction of osteopetrosis in the neonate oc/oc murine model after lentiviral vector gene therapy and non-genotoxic conditioning.

Author

Penna S, Zecchillo A, Di Verniere M, Fontana E, Iannello V, Palagano E, Mantero S, Cappelleri A, Rizzoli E, Santi L, Crisafulli L, Filibian M, Forlino A, Basso-Ricci L, Scala S, Scanziani E, Schinke T, Ficara F, Sobacchi C, Villa A, and Capo V

Abstract

Introduction: Autosomal recessive osteopetrosis (ARO) is a rare genetic disease, characterized by increased bone density due to defective osteoclast function. Most of the cases are due to TCIRG1 gene mutation, leading to severe bone phenotype and death in the first years of life. The standard therapy is the hematopoietic stem cell transplantation (HSCT), but its success is limited by several constraints. Conversely, gene therapy (GT) could minimize the immune-mediated complications of allogeneic HSCT and offer a prompt treatment to these patients., Methods: The Tcirg1 -defective oc/oc mouse model displays a short lifespan and high bone density, closely mirroring the human condition. In this work, we exploited the oc/oc neonate mice to optimize the critical steps for a successful therapy., Results: First, we showed that lentiviral vector GT can revert the osteopetrotic bone phenotype, allowing long-term survival and reducing extramedullary haematopoiesis. Then, we demonstrated that plerixafor-induced mobilization can further increase the high number of HSPCs circulating in peripheral blood, facilitating the collection of adequate numbers of cells for therapeutic purposes. Finally, pre-transplant non-genotoxic conditioning allowed the stable engraftment of HSPCs, albeit at lower level than conventional total body irradiation, and led to long-term survival and correction of bone phenotype, in the absence of acute toxicity., Conclusion: These results will pave the way to the implementation of an effective GT protocol, reducing the transplant-related complication risks in the very young and severely affected ARO patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Penna, Zecchillo, Di Verniere, Fontana, Iannello, Palagano, Mantero, Cappelleri, Rizzoli, Santi, Crisafulli, Filibian, Forlino, Basso-Ricci, Scala, Scanziani, Schinke, Ficara, Sobacchi, Villa and Capo.)

Published
2024
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17. Role of RANKL Signaling in Bone Homeostasis.

Author

Sobacchi C, Menale C, Crisafulli L, and Ficara F

Subjects
Humans, Animals, Receptor Activator of Nuclear Factor-kappa B metabolism, RANK Ligand metabolism, Signal Transduction, Homeostasis physiology, Bone and Bones metabolism
Abstract

RANKL and its cognate receptor RANK are crucial regulators of bone metabolism in physiological as well as in pathological conditions. Here we go through the works that unveiled the paramount role of this signaling pathway. We focus on the RANKL cytokine, whose alterations are responsible for rare and common bone diseases. We describe recent insights on the regulation of RANKL expression, which provide new hints for the pharmacological regulation of this molecule. Based on the multiple functions exerted by RANKL (within and outside the bone tissue), we advise caution regarding the potential unintended consequences of its inhibition.

Published
2025
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18. PBX1: a TALE of two seasons-key roles during development and in cancer.

Author

Crisafulli L, Brindisi M, Liturri MG, Sobacchi C, and Ficara F

Abstract

Pre-B cell leukemia factor 1 (PBX1) is a Three Aminoacid Loop Extension (TALE) homeodomain-containing transcription factor playing crucial roles in organ pattering during embryogenesis, through the formation of nuclear complexes with other TALE class and/or homeobox proteins to regulate target genes. Its contribution to the development of several organs has been elucidated mainly through the study of murine knockout models. A crucial role for human development has been recently highlighted through the discovery of different de novo pathogenic PBX1 variants in children affected by developmental defects. In the adult, PBX1 is expressed in selected tissues such as in the brain, in the gastro-intestinal and urinary systems, or in hematopoietic stem and progenitor cells, while in other organs is barely detectable. When involved in the t(1;19) chromosomal translocation it acts as an oncogene, since the resulting fusion protein drives pre-B cell leukemia, due to the induction of target genes not normally targeted by the native protein. Its aberrant expression has been associated to tumor development, progression, or therapy-resistance as in breast cancer, ovarian cancer or myeloproliferative neoplasm (MPN). On the other hand, in colorectal cancer PBX1 functions as a tumor suppressor, highlighting its context-dependent role. We here discuss differences and analogies of PBX1 roles during embryonic development and in cancer, focusing mainly on the most recent discoveries., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Crisafulli, Brindisi, Liturri, Sobacchi and Ficara.)

Published
2024
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19. Bone Marrow Niches and Tumour Cells: Lights and Shadows of a Mutual Relationship.

Author

Granata V, Crisafulli L, Nastasi C, Ficara F, and Sobacchi C

Subjects
Endothelial Cells, Hematopoietic Stem Cells metabolism, Stem Cell Niche, Bone Marrow metabolism, Mesenchymal Stem Cells metabolism
Abstract

The bone marrow (BM) niche is the spatial structure within the intra-trabecular spaces of spongious bones and of the cavity of long bones where adult haematopoietic stem cells (HSCs) maintain their undifferentiated and cellular self-renewal state through the intervention of vascular and nervous networks, metabolic pathways, transcriptional and epigenetic regulators, and humoral signals. Within the niche, HSCs interact with various cell types such as osteoblasts, endothelial cells, macrophages, and mesenchymal stromal cells (MSCs), which maintain HSCs in a quiescent state or sustain their proliferation, differentiation, and trafficking, depending on body needs. In physiological conditions, the BM niche permits the daily production of all the blood and immune cells and their admittance/ingress/progression into the bloodstream. However, disruption of this delicate microenvironment promotes the initiation and progression of malignancies such as those included in the spectrum of myeloid neoplasms, also favouring resistance to pharmacological therapies. Alterations in the MSC population and in the crosstalk with HSCs owing to tumour-derived factors contribute to the formation of a malignant niche. On the other hand, cells of the BM microenvironment cooperate in creating a unique milieu favouring metastasization of distant tumours into the bone. In this framework, the pro-tumorigenic role of MSCs is well-documented, and few evidence suggest also an anti-tumorigenic effect. Here we will review recent advances regarding the BM niche composition and functionality in normal and in malignant conditions, as well as the therapeutic implications of the interplay between its diverse cellular components and malignant cells., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Granata, Crisafulli, Nastasi, Ficara and Sobacchi.)

Published
2022
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20. Micro-RNAs: A safety net to protect hematopoietic stem cell self-renewal.

Author

Crisafulli L and Ficara F

Subjects
Apoptosis, Cell Differentiation genetics, Hematopoietic Stem Cells metabolism, Homeostasis, MicroRNAs genetics, MicroRNAs metabolism
Abstract

The hematopoietic system is sustained over time by a small pool of hematopoietic stem cells (HSCs). They reside at the apex of a complex hierarchy composed of cells with progressively more restricted lineage potential, regenerative capacity, and with different proliferation characteristics. Like other somatic stem cells, HSCs are endowed with long-term self-renewal and multipotent differentiation ability, to sustain the high turnover of mature cells such as erythrocytes or granulocytes, and to rapidly respond to acute peripheral stresses including bleeding, infections, or inflammation. Maintenance of both attributes over time, and of the proper balance between these opposite features, is crucial to ensure the homeostasis of the hematopoietic system. Micro-RNAs (miRNAs) are short non-coding RNAs that regulate gene expression posttranscriptionally upon binding to specific mRNA targets. In the past 10 years they have emerged as important players for preserving the HSC pool by acting on several biological mechanisms, such as maintenance of the quiescent state while preserving proliferation ability, prevention of apoptosis, premature differentiation, lineage skewing, excessive expansion, or retention within the BM niche. miRNA-mediated posttranscriptional fine-tuning of all these processes constitutes a safety mechanism to protect HSCs, by complementing the action of transcription factors and of other regulators and avoiding unwanted expansion or aplasia. The current knowledge of miRNAs function in different aspects of HSC biology, including consequences of aberrant miRNA expression, will be reviewed; yet unsolved issues will be discussed. This article is categorized under: RNA in Disease and Development > RNA in Disease RNA in Disease and Development > RNA in Development., (© 2021 The Authors. WIREs RNA published by Wiley Periodicals LLC.)

Published
2022
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21. Hematopoietic Cells from Pluripotent Stem Cells: Hope and Promise for the Treatment of Inherited Blood Disorders.

Author

Rao I, Crisafulli L, Paulis M, and Ficara F

Subjects
Cell Differentiation, Humans, Blood Coagulation Disorders, Inherited blood, Gene Editing methods, Genetic Therapy methods, Hematopoietic Stem Cells metabolism, Pluripotent Stem Cells metabolism
Abstract

Inherited blood disorders comprise a large spectrum of diseases due to germline mutations in genes with key function in the hematopoietic system; they include immunodeficiencies, anemia or metabolic diseases. For most of them the only curative treatment is bone marrow transplantation, a procedure associated to severe complications; other therapies include red blood cell and platelet transfusions, which are dependent on donor availability. An alternative option is gene therapy, in which the wild-type form of the mutated gene is delivered into autologous hematopoietic stem cells using viral vectors. A more recent therapeutic perspective is gene correction through CRISPR/Cas9-mediated gene editing, that overcomes safety concerns due to insertional mutagenesis and allows correction of base substitutions in large size genes difficult to incorporate into vectors. However, applying this technique to genomic disorders caused by large gene deletions is challenging. Chromosomal transplantation has been proposed as a solution, using a universal source of wild-type chromosomes as donor, and induced pluripotent stem cells (iPSCs) as acceptor. One of the obstacles to be addressed for translating PSC research into clinical practice is the still unsatisfactory differentiation into transplantable hematopoietic stem or mature cells. We provide an overview of the recent progresses in this field and discuss challenges and potential of iPSC-based therapies for the treatment of inherited blood disorders.

Published
2022
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22. PBX1-directed stem cell transcriptional program drives tumor progression in myeloproliferative neoplasm.

Author

Muggeo S, Crisafulli L, Uva P, Fontana E, Ubezio M, Morenghi E, Colombo FS, Rigoni R, Peano C, Vezzoni P, Della Porta MG, Villa A, and Ficara F

Subjects
Animals, Disease Models, Animal, Disease Progression, Gene Expression Profiling methods, Humans, Mice, Knockout, Mice, Transgenic, Mutation, Myeloproliferative Disorders metabolism, Myeloproliferative Disorders pathology, Neoplasms metabolism, Neoplasms pathology, Pre-B-Cell Leukemia Transcription Factor 1 metabolism, RNA-Seq methods, Signal Transduction genetics, Mice, Gene Expression Regulation, Neoplastic, Hematopoietic Stem Cells metabolism, Myeloproliferative Disorders genetics, Neoplasms genetics, Pre-B-Cell Leukemia Transcription Factor 1 genetics
Abstract

PBX1 regulates the balance between self-renewal and differentiation of hematopoietic stem cells and maintains proto-oncogenic transcriptional pathways in early progenitors. Its increased expression was found in myeloproliferative neoplasm (MPN) patients bearing the JAK2 V617F mutation. To investigate if PBX1 contributes to MPN, and to explore its potential as therapeutic target, we generated the JP mouse strain, in which the human JAK2 mutation is induced in the absence of PBX1. Typical MPN features, such as thrombocythemia and granulocytosis, did not develop without PBX1, while erythrocytosis, initially displayed by JP mice, gradually resolved over time; splenic myeloid metaplasia and in vitro cytokine independent growth were absent upon PBX1 inactivation. The aberrant transcriptome in stem/progenitor cells from the MPN model was reverted by the absence of PBX1, demonstrating that PBX1 controls part of the molecular pathways deregulated by the JAK2 V617F mutation. Modulation of the PBX1-driven transcriptional program might represent a novel therapeutic approach., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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23. Expanded circulating hematopoietic stem/progenitor cells as novel cell source for the treatment of TCIRG1 osteopetrosis.

Author

Capo V, Penna S, Merelli I, Barcella M, Scala S, Basso-Ricci L, Draghici E, Palagano E, Zonari E, Desantis G, Uva P, Cusano R, Sergi Sergi L, Crisafulli L, Moshous D, Stepensky P, Drabko K, Kaya Z, Unal E, Gezdirici A, Menna G, Serafini M, Aiuti A, Locatelli SL, Carlo-Stella C, Schulz AS, Ficara F, Sobacchi C, Gentner B, and Villa A

Subjects
Antigens, CD34, Genetic Therapy, Hematopoietic Stem Cells metabolism, Humans, Osteoclasts metabolism, Hematopoietic Stem Cell Transplantation, Osteopetrosis genetics, Osteopetrosis therapy, Vacuolar Proton-Translocating ATPases genetics, Vacuolar Proton-Translocating ATPases metabolism
Abstract

Allogeneic hematopoietic stem cell transplantation is the treatment of choice for autosomal recessive osteopetrosis caused by defects in the TCIRG1 gene. Despite recent progress in conditioning, a relevant number of patients are not eligible for allogeneic stem cell transplantation because of the severity of the disease and significant transplant-related morbidity. We exploited peripheral CD34+ cells, known to circulate at high frequency in the peripheral blood of TCIRG1-deficient patients, as a novel cell source for autologous transplantation of gene corrected cells. Detailed phenotypical analysis showed that circulating CD34+ cells have a cellular composition that resembles bone marrow, supporting their use in gene therapy protocols. Transcriptomic profile revealed enrichment in genes expressed by hematopoietic stem and progenitor cells (HSPCs). To overcome the limit of bone marrow harvest/ HSPC mobilization and serial blood drawings in TCIRG1 patients, we applied UM171-based ex-vivo expansion of HSPCs coupled with lentiviral gene transfer. Circulating CD34+ cells from TCIRG1-defective patients were transduced with a clinically-optimized lentiviral vector (LV) expressing TCIRG1 under the control of phosphoglycerate promoter and expanded ex vivo. Expanded cells maintained long-term engraftment capacity and multi-lineage repopulating potential when transplanted in vivo both in primary and secondary NSG recipients. Moreover, when CD34+ cells were differentiated in vitro, genetically corrected osteoclasts resorbed the bone efficiently. Overall, we provide evidence that expansion of circulating HSPCs coupled to gene therapy can overcome the limit of stem cell harvest in osteopetrotic patients, thus opening the way to future gene-based treatment of skeletal diseases caused by bone marrow fibrosis.

Published
2021
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24. Generation of an immunodeficient mouse model of tcirg1-deficient autosomal recessive osteopetrosis.

Author

Palagano E, Muggeo S, Crisafulli L, Tourkova IL, Strina D, Mantero S, Fontana E, Locatelli SL, Monari M, Morenghi E, Carlo-Stella C, Barnett JB, Blair HC, Vezzoni P, Villa A, Sobacchi C, and Ficara F

Abstract

Background: Autosomal recessive osteopetrosis is a rare skeletal disorder with increased bone density due to a failure in osteoclast bone resorption. In most cases, the defect is cell-autonomous, and >50% of patients bear mutations in the TCIRG1 gene, encoding for a subunit of the vacuolar proton pump essential for osteoclast resorptive activity. The only cure is hematopoietic stem cell transplantation, which corrects the bone pathology by allowing the formation of donor-derived functional osteoclasts. Therapeutic approaches using patient-derived cells corrected ex vivo through viral transduction or gene editing can be considered, but to date functional rescue cannot be demonstrated in vivo because a relevant animal model for xenotransplant is missing., Methods: We generated a new mouse model, which we named NSG oc/oc, presenting severe autosomal recessive osteopetrosis owing to the Tcirg1 oc mutation, and profound immunodeficiency caused by the NSG background. We performed neonatal murine bone marrow transplantation and xenotransplantation with human CD34 + cells., Results: We demonstrated that neonatal murine bone marrow transplantation rescued NSG oc/oc mice, in line with previous findings in the oc/oc parental strain and with evidence from clinical practice in humans. Importantly, we also demonstrated human cell chimerism in the bone marrow of NSG oc/oc mice transplanted with human CD34 + cells. The severity and rapid progression of the disease in the mouse model prevented amelioration of the bone pathology; nevertheless, we cannot completely exclude that minor early modifications of the bone tissue might have occurred., Conclusion: Our work paves the way to generating an improved xenograft model for in vivo evaluation of functional rescue of patient-derived corrected cells. Further refinement of the newly generated mouse model will allow capitalizing on it for an optimized exploitation in the path to novel cell therapies., (© 2020 Published by Elsevier Inc.)

Published
2020
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25. MicroRNA-127-3p controls murine hematopoietic stem cell maintenance by limiting differentiation.

Author

Crisafulli L, Muggeo S, Uva P, Wang Y, Iwasaki M, Locatelli S, Anselmo A, Colombo FS, Carlo-Stella C, Cleary ML, Villa A, Gentner B, and Ficara F

Subjects
Animals, Cell Lineage genetics, Cluster Analysis, Crosses, Genetic, Gene Expression Profiling, Hematopoiesis, Homeostasis, Humans, K562 Cells, Lentivirus genetics, Mice, Mice, Knockout, Oxidative Stress, Pre-B-Cell Leukemia Transcription Factor 1 metabolism, Cell Differentiation, Hematopoietic Stem Cells cytology, MicroRNAs physiology
Abstract

The balance between self-renewal and differentiation is crucial to ensure the homeostasis of the hematopoietic system, and is a hallmark of hematopoietic stem cells. However, the underlying molecular pathways, including the role of micro-RNA, are not completely understood. To assess the contribution of micro-RNA, we performed micro-RNA profiling of hematopoietic stem cells and their immediate downstream progeny multi-potent progenitors from wild-type control and Pbx1-conditional knockout mice, whose stem cells display a profound self-renewal defect. Unsupervised hierarchical cluster analysis separated stem cells from multi-potent progenitors, suggesting that micro-RNA might regulate the first transition step in the adult hematopoietic development. Notably, Pbx1-deficient and wild-type cells clustered separately, linking micro-RNAs to self-renewal impairment. Differential expression analysis of micro-RNA in the physiological stem cell-to-multi-potent progenitor transition and in Pbx1-deficient stem cells compared to control stem cells revealed miR-127-3p as the most differentially expressed. Furthermore, miR-127-3p was strongly stem cell-specific, being quickly down-regulated upon differentiation and not re-expressed further downstream in the bone marrow hematopoietic hierarchy. Inhibition of miR-127-3p function in Lineage-negative cells, achieved through a lentiviral-sponge vector, led to severe stem cell depletion, as assessed with serial transplantation assays. miR-127-3p-sponged stem cells displayed accelerated differentiation, which was uncoupled from proliferation, accounting for the observed stem cell reduction. miR-127-3p overexpression in Lineage-negative cells did not alter stem cell pool size, but gave rise to lymphopenia, likely due to lack of miR-127-3p physiological downregulation beyond the stem cell stage. Thus, tight regulation of miR-127-3p is crucial to preserve the self-renewing stem cell pool and homeostasis of the hematopoietic system., (Copyright© 2019 Ferrata Storti Foundation.)

Published
2019
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26. ACKR2 in hematopoietic precursors as a checkpoint of neutrophil release and anti-metastatic activity.

Author

Massara M, Bonavita O, Savino B, Caronni N, Mollica Poeta V, Sironi M, Setten E, Recordati C, Crisafulli L, Ficara F, Mantovani A, Locati M, and Bonecchi R

Subjects
Animals, Cell Differentiation genetics, Cell Line, Tumor, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Myeloid Cells metabolism, Neoplasm Metastasis, Neoplasms, Experimental genetics, Neoplasms, Experimental pathology, Receptors, Chemokine genetics, Hematopoietic Stem Cells metabolism, Neoplasms, Experimental metabolism, Neutrophils metabolism, Receptors, Chemokine metabolism
Abstract

Atypical chemokine receptors (ACKRs) are regulators of leukocyte traffic, inflammation, and immunity. ACKR2 is a scavenger for most inflammatory CC chemokines and is a negative regulator of inflammation. Here we report that ACKR2 is expressed in hematopoietic precursors and downregulated during myeloid differentiation. Genetic inactivation of ACKR2 results in increased levels of inflammatory chemokine receptors and release from the bone marrow of neutrophils with increased anti-metastatic activity. In a model of NeuT-driven primary mammary carcinogenesis ACKR2 deficiency is associated with increased primary tumor growth and protection against metastasis. ACKR2 deficiency results in neutrophil-mediated protection against metastasis in mice orthotopically transplanted with 4T1 mammary carcinoma and intravenously injected with B16F10 melanoma cell lines. Thus, ACKR2 is a key regulator (checkpoint) of mouse myeloid differentiation and function and its targeting unleashes the anti-metastatic activity of neutrophils in mice.

Published
2018
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27. Pbx1 restrains myeloid maturation while preserving lymphoid potential in hematopoietic progenitors.

Author

Ficara F, Crisafulli L, Lin C, Iwasaki M, Smith KS, Zammataro L, and Cleary ML

Subjects
Animals, Cell Lineage genetics, Cell Survival genetics, Cells, Cultured, Gene Expression Regulation, Homeodomain Proteins genetics, Lymphocyte Activation genetics, Mice, Mice, Inbred Strains, Mice, Knockout, Myeloid Ecotropic Viral Integration Site 1 Protein, Pre-B-Cell Leukemia Transcription Factor 1, Protein Multimerization, Transcription Factors genetics, Transcriptional Activation, Hematopoiesis, Homeodomain Proteins metabolism, Lymphoid Progenitor Cells physiology, Myeloid Progenitor Cells physiology, Neoplasm Proteins metabolism, Transcription Factors metabolism
Abstract

The capacity of the hematopoietic system to promptly respond to peripheral demands relies on adequate pools of progenitors able to transiently proliferate and differentiate in a regulated manner. However, little is known about factors that may restrain progenitor maturation to maintain their reservoirs. Conditional knockout mice for the Pbx1 proto-oncogene have a significant reduction in lineage-restricted progenitors in addition to a profound defect in hematopoietic stem cell (HSC) self-renewal. Through analysis of purified progenitor proliferation, differentiation capacity and transcriptional profiling, we demonstrate that Pbx1 regulates the lineage-specific output of multipotent and oligopotent progenitors. In the absence of Pbx1 multipotent progenitor (MPP) and common myeloid progenitor (CMP) pools are reduced due to aberrantly rapid myeloid maturation. This is associated with premature expression of myeloid differentiation genes and decreased maintenance of proto-oncogene transcriptional pathways, including reduced expression of Meis1, a Pbx1 dimerization partner, and its subordinate transcriptional program. Conversely, Pbx1 maintains the lymphoid differentiation potential of lymphoid-primed MPPs (LMPPs) and common lymphoid progenitors (CLPs), whose reduction in the absence of Pbx1 is associated with a defect in lymphoid priming that is also present in CMPs, which persistently express lymphoid and HSC genes underlying a previously unappreciated lineage promiscuity that is maintained by Pbx1. These results demonstrate a role for Pbx1 in restraining myeloid maturation while maintaining lymphoid potential to appropriately regulate progenitor reservoirs.

Published
2013
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28. Osteopetrosis rescue upon RANKL administration to Rankl(-/-) mice: a new therapy for human RANKL-dependent ARO.

Author

Lo Iacono N, Blair HC, Poliani PL, Marrella V, Ficara F, Cassani B, Facchetti F, Fontana E, Guerrini MM, Traggiai E, Schena F, Paulis M, Mantero S, Inforzato A, Valaperta S, Pangrazio A, Crisafulli L, Maina V, Kostenuik P, Vezzoni P, Villa A, and Sobacchi C

Subjects
Animals, Bone Marrow Cells drug effects, Bone Resorption chemically induced, Bone and Bones drug effects, Disease Models, Animal, Female, Humans, Male, Mice, Osteopetrosis pathology, Phenotype, RANK Ligand administration & dosage, RANK Ligand adverse effects, RANK Ligand genetics, Receptor Activator of Nuclear Factor-kappa B deficiency, Receptor Activator of Nuclear Factor-kappa B genetics, Osteopetrosis drug therapy, Osteopetrosis genetics, RANK Ligand therapeutic use
Abstract

In the last decades the molecular basis of monogenic diseases has been largely unraveled, although their treatment has often remained unsatisfactory. Autosomal recessive osteopetrosis (ARO) belongs to the small group of genetic diseases that are usually treated with hematopoietic stem cell transplantation (HSCT). However, this approach is not effective in the recently identified form carrying mutations in the receptor activator of NF-κB ligand (RANKL) gene. In this subset, therapy replacement approach based on RANKL delivery has a strong rationale. Here we demonstrate that the systematic administration of RANKL for 1 month to Rankl(-/-) mice, which closely resemble the human disease, significantly improves the bone phenotype and has beneficial effects on bone marrow, spleen and thymus; major adverse effects arise only when mice are clearly overtreated. Overall, we provide evidence that the pharmacological administration of RANKL represents the appropriate treatment option for RANKL-deficient ARO patients, to be validated in a pilot clinical trial., (Copyright © 2012 American Society for Bone and Mineral Research.)

Published
2012
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29. REST controls self-renewal and tumorigenic competence of human glioblastoma cells.

Author

Conti L, Crisafulli L, Caldera V, Tortoreto M, Brilli E, Conforti P, Zunino F, Magrassi L, Schiffer D, and Cattaneo E

Subjects
Analysis of Variance, Animals, Annexin A5, Apoptosis physiology, Blotting, Western, Colorimetry, Gene Knockdown Techniques, Humans, Immunohistochemistry, In Vitro Techniques, Mice, Mice, SCID, MicroRNAs metabolism, Real-Time Polymerase Chain Reaction, Repressor Proteins genetics, Tetrazolium Salts, Thiazoles, Tumor Cells, Cultured, Cell Transformation, Neoplastic metabolism, Gene Expression Regulation, Neoplastic physiology, Glioblastoma physiopathology, Repressor Proteins metabolism, Repressor Proteins physiology
Abstract

The Repressor Element 1 Silencing Transcription factor (REST/NRSF) is a master repressor of neuronal programs in non-neuronal lineages shown to function as a central regulator of developmental programs and stem cell physiology. Aberrant REST function has been associated with a number of pathological conditions. In cancer biology, REST has been shown to play a tumor suppressor activity in epithelial cancers but an oncogenic role in brain childhood malignancies such as neuroblastoma and medulloblastoma. Here we examined REST expression in human glioblastoma multiforme (GBM) specimens and its role in GBM cells carrying self-renewal and tumorigenic competence. We found REST to be expressed in GBM specimens, its presence being particularly enriched in tumor cells in the perivascular compartment. Significantly, REST is highly expressed in self-renewing tumorigenic-competent GBM cells and its knock down strongly reduces their self-renewal in vitro and tumor-initiating capacity in vivo and affects levels of miR-124 and its downstream targets. These results indicate that REST contributes to GBM maintenance by affecting its self-renewing and tumorigenic cellular component and that, hence, a better understanding of these circuitries in these cells might lead to new exploitable therapeutic targets.

Published
2012
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30. Picture archiving and communication in radiology.

Author

Napoli M, Nanni M, Cimarra S, Crisafulli L, Campioni P, and Marano P

Subjects
Algorithms, Computer Communication Networks standards, Humans, Italy, Radiographic Image Enhancement standards, Radiology Department, Hospital standards, Radiology Information Systems standards, Computer Communication Networks legislation & jurisprudence, Computer Security legislation & jurisprudence, Radiology Information Systems legislation & jurisprudence
Abstract

After over 80 years of exclusive archiving of radiologic films, at present, in Radiology, digital archiving is increasingly gaining ground. Digital archiving allows a considerable reduction in costs and space saving, but most importantly, immediate or remote consultation of all examinations and reports in the hospital clinical wards, is feasible. The RIS system, in this case, is the starting point of the process of electronic archiving which however is the task of PACS. The latter can be used as radiologic archive in accordance with the law provided that it is in conformance with some specifications as the use of optical long-term storage media or with electronic track of change. PACS archives, in a hierarchical system, all digital images produced by each diagnostic imaging modality. Images and patient data can be retrieved and used for consultation or remote consultation by the reporting radiologist who requires images and reports of previous radiologic examinations or by the referring physician of the ward. Modern PACS owing to the WEB server allow remote access to extremely simplified images and data however ensuring the due regulations and access protections. Since the PACS enables a simpler data communication within the hospital, security and patient privacy should be protected. A secure and reliable PACS should be able to minimize the risk of accidental data destruction, and should prevent non authorized access to the archive with adequate security measures in relation to the acquired knowledge and based on the technological advances. Archiving of data produced by modern digital imaging is a problem now present also in small Radiology services. The technology is able to readily solve problems which were extremely complex up to some years ago as the connection between equipment and archiving system owing also to the universalization of the DICOM 3.0 standard. The evolution of communication networks and the use of standard protocols as TCP/IP can minimize problems of data and image remote transmission within the healthcare enterprise as well as over the territory. However, new problems are appearing as that of digital data security profiles and of the different systems which should ensure it. Among these, algorithms of electronic signature should be mentioned. In Italy they are validated by law and therefore can be used in digital archives in accordance with the law.

Published
2003

31. Accessing source information in analogical problem-solving.

Author

Anolli L, Antonietti A, Crisafulli L, and Cantoia M

Subjects
Adult, Association Learning, Concept Formation, Female, Generalization, Psychological, Humans, Male, Attention, Problem Solving, Transfer, Psychology
Abstract

Several studies showed that people presented with source information fail to apply it to an analogous target problem unless they are instructed to use the source. Seven experiments were carried out to assess whether such a lack of spontaneous transfer occurs because individuals do not activate the source during the target task or because they do not realize the source-target relationship. Experiment 1 compared a condition in which the source was activated with no cue about the source-target connection to conditions in which subjects were informed about this connection. Results suggested that the lack of spontaneous transfer does not depend on failure in activating source information. Experiments 2, 3, and 4 were devised to falsify this finding by activating the source closer and closer to the target and by focusing participants' attention toward the relevant aspects of the source. Experiments 5, 6, and 7 were aimed at stressing source-target correspondences by introducing surface similarities. All experiments showed that the mere activation of the source does not facilitate analogical transfer. Results suggested that two processes should be distinguished in the access phase of analogical problem-solving: Source retrieval and identification of the source-target connection.

Published
2001
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