Laetitia Pieruccioni scite author profile

Follicular lymphoma (FL) is an indolent B cell lymphoproliferative disorder of transformed follicular center B cells, which accounts for 20–30 percent of all non-Hodgkin lymphoma (NHL) cases. Great advances have been made to identify the most relevant targets for precision therapy. However, no relevant models for in vitro studies have been developed or characterized in depth. To this purpose, we generated a 3D cell model from t(14;18)-positive B-NHL cell lines cultured in ultra-low attachment 96-well plates. Morphological features and cell growth behavior were evaluated by classical microscopy (2D imaging) and response to treatment with different drugs was evaluated by a high-content analysis system to determine the robustness of the model. We show that the ultra-low attachment (ULA) method allows the development of regular, spherical and viable ULA-multicellular aggregates of lymphoma cells (MALC). However, discrepancies in the results obtained after 2D imaging analyses on drug-treated ULA-MALC prompted us to develop 3D imaging and specific analyses. We show by using light sheet microscopy and specifically developed 3D imaging algorithms that 3D imaging and dedicated analyses are necessary to characterize morphological properties of 3D models and drug effects. This study proposes a new method, but also imaging tools and informatic solutions, developed for FL necessary for future preclinical studies.

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Gingival Orofacial Granulomatosis Clinical and 2D/3D Microscopy Features after Orthodontic Therapy: A Pediatric Case Report

Cecchin-Albertoni

Pieruccioni

Canceill

et al. 2023

Medicina

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Orofacial granulomatosis (OFG) represents a heterogeneous group of rare orofacial diseases. When affecting gingiva, it appears as a chronic soft tissue inflammation, sometimes combined with the enlargement and swelling of other intraoral sites, including the lips. Gingival biopsy highlights noncaseating granulomatous inflammation, similar to that observed in Crohn’s disease and sarcoidosis. At present, the etiology of OFG remains uncertain, although the involvement of the genetic background and environmental triggers, such as oral conditions or therapies (including orthodontic treatment), has been suggested. The present study reports the results of a detailed clinical and 2D/3D microscopy investigation of a case of gingival orofacial granulomatosis in an 8-year-old male patient after orthodontic therapy. Intraoral examination showed an erythematous hyperplasia of the whole gingiva with a granular appearance occurring a few weeks after the installation of a quad-helix. Peri-oral inspection revealed upper labial swelling and angular cheilitis. General investigations did not report ongoing extra-oral disturbances with the exception of a weakly positive anti-Saccharomyces cerevicae IgG auto-antibody. Two- and three-dimensional microscopic investigations confirmed the presence of gingival orofacial granulomatosis. Daily corticoid mouthwashes over a period of 3 months resulted in a slight improvement in clinical signs, despite an intermittent inflammation recurrence. This study brings new insights into the microscopic features of gingival orofacial granulomatosis, thus providing key elements to oral practitioners to ensure accurate and timely OFG diagnosis. The accurate diagnosis of OFG allows targeted management of symptoms and patient monitoring over time, along with early detection and treatment of extra-oral manifestations, such as Crohn’s disease.

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The Loss of the E3 ubiquitin ligase TRIP12 inhibits Pancreatic Acinar Cell Plasticity and Tumor Cell Metastatic Capacity

Brunet

Vargas

Fanjul

et al. 2023

Preprint

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Background & Aims: Although specialized and dedicated to the production of digestive enzymes, pancreatic acinar cells harbor a high plasticity and are able to modify their identity. They undergo reversible acinar-to-ductal cell metaplasia (ADM) through epigenetic silencing of the acinar lineage gene program mainly controlled by PTF1a (Pancreas Transcription Factor 1a). ADM becomes irreversible in the presence of oncogenic Kras mutations and leads to the formation of preneoplastic lesions. We investigated the role of the E3 ubiquitin ligase Thyroid hormone Receptor Interacting Protein 12 (TRIP12), involved in PTF1a degradation, in pancreatic carcinogenesis. Methods: We used genetically engineered mouse models of pancreas-selective Trip12 deletion, mutant Kras (G12D) and mutant Trp53 (R172H). We performed RNA sequencing analysis from acinar cells and cell lines derived from mice models tumors. We investigated the impact of TRIP12 deficiency on acute pancreatitis, tumor formation and metastasis development. Results: TRIP12 is overexpressed in human pancreatic preneoplastic lesions and tumors. We show that a conditional deletion of TRIP12 in the pancreas during murine embryogenesis alters pancreas homeostasis and acinar cell genes expression patterns in adults. EGF induced-ADM is suppressed in TRIP12-depleted pancreatic acini. In vivo, a loss of TRIP12 prevents acini to develop ADM in response to pancreatic injury, the formation of Kras-induced pancreatic preneoplastic lesions, and impairs tumors and metastasis formation in the presence of mutated Trp53. TRIP12 is required for Claudin18.2 isoform expression in pancreatic tumors cells. Conclusions: Our study identifies TRIP12 as a novel regulator of acinar fate in the adult pancreas with an important dual role in pancreatic carcinogenesis, in initiation steps and in metastatic behavior of tumor cells.

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