690. Permanent Epigenetic Silencing of Human Genes With Artificial Transcriptional Repressors

There are several diseases whereby the goal of gene therapy is to silence rather than replace a gene function. Paradigmatic examples are diseases caused by a dominant negative mutation or those in which silencing of a host gene confers resistance to a pathogen or compensates the function of the missing gene. Yet, gene silencing can be used to enhance efficacy of cell therapy and for biotechnological applications. Until now, two technologies have been used to silence gene expression, namely RNA interference with short harping RNAs (shRNA) and gene disruption with Artificial Nucleases (ANs). Although some promising pre-clinical and clinical data have been already obtained, the low efficiency of knock-down with shRNA and of biallelic disruption with ANs may limit efficacy of these treatments, especially when residual gene activity can exert a biological function. To overcome this issue, we have developed a novel modality of gene silencing that exploits endogenous epigenetic mechanisms to convey robust and heritable states of repression at the desired target gene. We have generated Artificial Transcriptional Repressors (ATRs), chimeric proteins containing a custom-made DNA binding domain fused to the effector domain of a chromatinmodifying enzyme involved in silencing of Endogenous RetroViruses (ERVs). By performing iterative rounds of selection in human cell lines and primary cells engineered to report for synergistic activity of candidate effector domains, we identified a combination of 3 domains that, when transiently co-assembled on the promoter of the reporter cassette, fully abrogated transgene expression in up to 90% of treated cells. Importantly, silencing was maintained for more than 250 days in cultured cell lines, was resistant to in vitro differentiation or metabolic activation of primary cells, and was confined to the reporter cassette. Silencing was associated with high levels of de novo DNA methylation at the targeted locus and was dependent on this epigenetic mark for its propagation. Finally, transient transfection of 3 ATRs targeted to the promoter region of the Beta-2-microglobulin (B2M) gene resulted in the loss of surface expression of B2M and, consequently, of the MHC-I molecules in up to 80% of treated cells. This phenotype was associated with a switch in the epigenetic and transcriptional state of the constitutively active B2M gene, which became highly decorated with DNA methylation and deprived of RNA PolII and of its transcript. Of note, silencing was resistant to IFN-γ treatment, a potent B2M inducer. Overall, these data provide the first demonstration of efficient and stable silencing of an endogenous gene upon transient delivery of ATRs. This result was made possible by repurposing the machinery involved in silencing of ERVs, which instructs self-sustaining repressive epigenetic states on the gene of interest. While silencing of B2M might be used to generate universally transplantable allogeneic cells, our hit-and-run strategy provides a powerful new alternative to conventional gene silencing for the treatment of several diseases. (LN & AL co-authorship

729 inheritable silencing of endogenous gene by hit and run targeted epigenetic editing

Gene silencing holds great promise for the treatment of several diseases and can be exploited to investigate gene function and activity of the regulatory genome. Here, we develop a novel modality of gene silencing that exploits epigenetics to achieve stable and highly efficient repression of target genes. To this end, we generated Artificial Transcriptional Repressors (ATRs), chimeric proteins containing a custom-made DNA binding domain fused to the effector domain of chromatin-modifying enzymes involved in silencing process of Endogenous RetroViruses (ERVs). By performing iterative rounds of selection in cells engineered to report for synergistic activity of candidate effector domains, we identified a combination of 3 domains (namely KRAB, DNMT3A and DNMT3L) that, when transiently co-assembled on the promoter of the reporter cassette, recreate a powerful embryonic-specific repressive complex capable of inducing full and long-term (>150 days) silencing of transgene expression in up to 90% of the cells. The ATR-induced silencing was cell type and locus independent, and resistant to metabolic activation of the cells. Importantly, these findings were holding true also for endogenous genes embedded in their natural chromatin context, as shown for the highly and ubiquitously expressed B2M gene. Here, transient co-delivery of TALE-based ATRs resulted in loss of surface expression of B2M and, consequently, of the MHC-I molecules in up to 80% of the cells. This phenotype was associated with a drastic switch in the epigenetic and transcriptional state of the constitutively active B2M promoter, which become highly decorated with de novo DNA methylation and deprived of RNAP II. Importantly, silencing was sharply confined to the targeted gene and resistant to INF-γ, a potent natural activator of B2M. We further extended these studies by showing that our silencing approach is portable to the CRISPR/dCas9 DNA binding technology. In this setting, comparable levels of B2M silencing (up to 80%) were achieved using either pools or even individual sgRNAs coupled to dCas9-based ATRs. Yet, adoption of this technology allowed performing simultaneous, highly efficient multiplex gene silencing within the same cell, as shown for B2M, IFNAR1 and VEGFA. Finally, we assessed resistance of the silenced gene to activity of potent artificial transcription activators and chromatin remodelers, and found that only targeted DNA demethylation was able to reawaken the silent gene. This allowed performing iterative cycles of silencing and reactivation of the same gene in the same cell population. Overall, these data provide the first demonstration of efficient and stable epigenetic silencing of endogenous genes upon transient delivery of ATRs. This was accomplished by repurposing the ERVs silencing machinery, which instructs self-sustaining repressive epigenetic states to the target gene. While silencing of B2M might be used to generate universally transplantable allogeneic cells, our hit-and-run strategy provides a powerful new alternative to conventional gene silencing for both basic and translational research

A cross-sectional study evaluating hospitalization rates for chronic limb-threatening ischemia during the COVID-19 outbreak in Campania, Italy

The expansion of coronavirus disease 2019 (COVID-19) prompted measures of disease containment by the Italian government with a national lockdown on March 9, 2020. The purpose of this study is to evaluate the rate of hospitalization and mode of in-hospital treatment of patients with chronic limb-threatening ischemia (CLTI) before and during lockdown in the Campania region of Italy. The study population includes all patients with CLTI hospitalized in Campania over a 10-week period: 5 weeks before and 5 weeks during lockdown (n = 453). Patients were treated medically and/or underwent urgent revascularization and/or major amputation of the lower extremities. Mean age was 69.2 +/- 10.6 years and 27.6% of the patients were women. During hospitalization, 21.9% of patients were treated medically, 78.1% underwent revascularization, and 17.4% required amputations. In the weeks during the lockdown, a reduced rate of hospitalization for CLTI was observed compared with the weeks before lockdown (25 vs 74/100,000 inhabitants/year; incidence rate ratio: 0.34, 95% CI 0.32-0.37). This effect persisted to the end of the study period. An increased amputation rate in the weeks during lockdown was observed (29.3% vs 13.4%; p < 0.001). This study reports a reduced rate of CLTI-related hospitalization and an increased in-hospital amputation rate during lockdown in Campania. Ensuring appropriate treatment for patients with CLTI should be prioritized, even during disease containment measures due to the COVID-19 pandemic or other similar conditions

Il linfoma della mammella: orientamento diagnostico e chirurgico

L'esperienza relativa all'osservazione e al trattamento chirurgico di una paziente operata per linfoma primitivo della mammella ha indotto gli Autori a riconsiderare le problematiche inerenti l'inquadramento nosologico, le difficoltà di una diagnosi clinica, il ruolo del chirurgo e il tipo di intervento chirurgico in tale patologia. English version: By clinical observation and surgical treatment of a patient with a primitive lymphoma of the breast, the Authors describe the nosological approach, the correct diagnosis and the relative surgical treatment in that disease

I fibroadenomi multipli recidivanti della mammella. Case report

I fibroadenomi multipli e recidivanti della mammella rappresentano un evento patologico assai poco frequente. L’eziologia rimane tuttora sconosciuta, mentre la diagnosi strumentale non desta particolari problemi. Gli Autori presentano il caso di una giovane donna di 22 anni operata più volte per la presenza di multipli fibroadenomi mammari bilaterali plurirecidivanti. L’attegiamento terapeutico proposto per questa patologia rimane il controllo strumentale periodico, limitando l’asportazione chirurgica solo a quelle lesioni che raggiungano in breve tempo un significativo incremento volumetrico

In tema di lesioni pseudosarcomatose

Di etiologia sconosciuta, a localizzazione prevalente negli arti superiori, la fascite nodulare viene oggi considerata una lesione, più che di natura neoplastica, di tipo reattivo-infiammatorio aspecifico. Scarsamente sintomatica, si avvale dell'esame istologico per la diagnosi di certezza. L?estensione dell'exeresi va modulata in relazione ai dati dell?esame istologico definitivo. English version: Of unknown ethiology, mainly located on the upper limbs, the nodular fasciitis nowadays is considered as a reactive inflammatory lesion more than a neoplastic one. With very few symptoms, it can be diagnosed through histhology and the extention of the excision is related to the report of the pathological examination

Getting down to business: using speedstorming to initiate ceative cross-disciplinary collaboration

Creative collaborations that cross disciplinary boundaries are essential to innovation. Individuals face challenges, however, in forming new collaborations. Empirical and anecdotal evidence suggests that the common formats of brainstorming and free-form networking are insufficient for enabling such collaborations to form. We present a potential solution called speedstorming, a pair-wise method of creative interaction similar to the round-robin ‘speed-dating’ technique. Speedstorming combines an explicit purpose, time limits, and one-on-one encounters to create a setting where boundary-spanning opportunities can be recognized, ideas can be explored at a deep level of interdisciplinary expertise, and potential collaborators can be quickly assessed. A comparison of speedstorming and brainstorming suggests that ideas from speedstorming were more technically specialized and that speedstorming participants were more certain in their assessments of the collaborative potential of others. This paper concludes with a discussion of the method's application in a variety of settings

Bisphosphonates Target B Cells to Enhance Humoral Immune Responses

Bisphosphonates are a class of drugs that are widely used to inhibit loss of bone mass in patients. We show here that the administration of clinically relevant doses of bisphosphonates in mice increases antibody responses to live and inactive viruses, proteins, haptens, and existing commercial vaccine formulations. Bisphosphonates exert this adjuvant-like activity in the absence of CD4+ and γδ T cells, neutrophils, or dendritic cells, and their effect does not rely on local macrophage depletion, Toll-like receptor signaling, or the inflammasome. Rather, bisphosphonates target directly B cells and enhance B cell expansion and antibody production upon antigen encounter. These data establish bisphosphonates as an additional class of adjuvants that boost humoral immune responses