Sandy Anania scite author profile

In mammal myocytes, endothelial cells and inner ear cells, ferlins are proteins involved in membrane processes such as fusion, recycling, endo- and exocytosis. They harbour several C2 domains allowing their interaction with phospholipids. The expression of several Ferlin genes was described as altered in several tumoural tissues. Intriguingly, beyond a simple alteration, myoferlin, otoferlin and Fer1L4 expressions were negatively correlated with patient survival in some cancer types. Therefore, it can be assumed that membrane biology is of extreme importance for cell survival and signalling, making Ferlin proteins core machinery indispensable for cancer cell adaptation to hostile environments. The evidences suggest that myoferlin, when overexpressed, enhances cancer cell proliferation, migration and metabolism by affecting various aspects of membrane biology. Targeting myoferlin using pharmacological compounds, gene transfer technology, or interfering RNA is now considered as an emerging therapeutic strategy.

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3D‐Printed Synthetic Hydroxyapatite Scaffold With In Silico Optimized Macrostructure Enhances Bone Formation In Vivo

hede

Liang

Anania

et al. 2021

Adv Funct Materials

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3D printing technologies are a promising approach to treat intra-oral bone defects, especially those with poor regenerative potential. However, there is a lack of evidence regarding the impact of internal design specifications on the bone regenerative potential. Here, an in silico approach to optimize the internal design of calcium phosphate-based scaffolds for bone regeneration is proposed. Based on an in silico model of neotissue formation, a gyroid 3D-printed scaffold is designed and manufactured using UV stereolithography of bioceramic materials. An orthogonal lattice structure 3D-printed scaffold and a particulate xenograft are used as control groups. The scaffolds are implanted subperiosteally under a shell on rat calvarium for 4 or 8 weeks and bone neoformation performances are investigated by nanofocus computed tomography and decalcified histology. After 8 weeks, the gyroid group is associated with a higher ingrowth potential of the bone and is characterized by signs of osteoinduction (newly formed bone islands). The bone to material contact is similar between the gyroid and the particulate groups. The present results reinforce this in silico modeling strategy to design calcium phosphate-based 3D scaffolds and the gyroid experimental internal architecture seems to be highly promising for intra-oral bone regeneration applications.

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Myoferlin Contributes to the Metastatic Phenotype of Pancreatic Cancer Cells by Enhancing Their Migratory Capacity through the Control of Oxidative Phosphorylation

Rademaker

Costanza

Anania

et al. 2019

Cancers

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Pancreatic ductal adenocarcinoma (PDAC) is one of the deadliest malignancies with an overall survival of 5% and is the second cause of death by cancer, mainly linked to its high metastatic aggressiveness. Accordingly, understanding the mechanisms sustaining the PDAC metastatic phenotype remains a priority. In this study, we generated and used a murine in vivo model to select clones from the human Panc-1 PDAC cell line that exhibit a high propensity to seed and metastasize into the liver. We showed that myoferlin, a protein previously reported to be overexpressed in PDAC, is significantly involved in the migratory abilities of the selected cells. We first report that highly metastatic Panc-1 clones expressed a significantly higher myoferlin level than the corresponding low metastatic ones. Using scratch wound and Boyden’s chamber assays, we show that cells expressing a high myoferlin level have higher migratory potential than cells characterized by a low myoferlin abundance. Moreover, we demonstrate that myoferlin silencing leads to a migration decrease associated with a reduction of mitochondrial respiration. Since mitochondrial oxidative phosphorylation has been shown to be implicated in the tumor progression and dissemination, our data identify myoferlin as a valid potential therapeutic target in PDAC.

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Multilevel biological responses following piezocision to accelerate orthodontic tooth movement: A study in rats

Charavet

hede

Anania

et al. 2019

Journal of the World Federation of Orthodontists

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Myoferlin targeting triggers mitophagy and primes ferroptosis in pancreatic cancer cells

et al. 2022

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Myoferlin Is a Yet Unknown Interactor of the Mitochondrial Dynamics’ Machinery in Pancreas Cancer Cells

Anania

Peiffer

Rademaker

et al. 2020

Cancers

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Pancreas ductal adenocarcinoma is one of the deadliest cancers where surgery remains the main survival factor. Mitochondria were described to be involved in tumor aggressiveness in several cancer types including pancreas cancer. We have previously reported that myoferlin controls mitochondrial structure and function, and demonstrated that myoferlin depletion disturbs the mitochondrial dynamics culminating in a mitochondrial fission. In order to unravel the mechanism underlying this observation, we explored the myoferlin localization in pancreatic cancer cells and showed a colocalization with the mitochondrial dynamic machinery element: mitofusin. This colocalization was confirmed in several pancreas cancer cell lines and in normal cell lines as well. Moreover, in pancreas cancer cell lines, it appeared that myoferlin interacted with mitofusin. These discoveries open-up new research avenues aiming at modulating mitofusin function in pancreas cancer.

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One-stage versus two-stage piezocision-assisted orthodontic tooth movement: A preclinical study based on Nano-CT and RT-PCR analyses

Charavet

hede

Anania

et al. 2022

Journal of Stomatology, Oral and Maxillofacial Surgery

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One-Stage Versus Two-Stage Piezocision-Assisted Orthodontic Tooth Movement: A Preclinical Study Based on Nano-CT and RT-PCR Analyses

Charavet¹,

hede

Anania

et al. 2021

SSRN Journal

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Sandy Anania

Ferlin Overview: From Membrane to Cancer Biology

3D‐Printed Synthetic Hydroxyapatite Scaffold With In Silico Optimized Macrostructure Enhances Bone Formation In Vivo

Myoferlin Contributes to the Metastatic Phenotype of Pancreatic Cancer Cells by Enhancing Their Migratory Capacity through the Control of Oxidative Phosphorylation

Multilevel biological responses following piezocision to accelerate orthodontic tooth movement: A study in rats

Myoferlin targeting triggers mitophagy and primes ferroptosis in pancreatic cancer cells

Myoferlin Is a Yet Unknown Interactor of the Mitochondrial Dynamics’ Machinery in Pancreas Cancer Cells

One-stage versus two-stage piezocision-assisted orthodontic tooth movement: A preclinical study based on Nano-CT and RT-PCR analyses

One-Stage Versus Two-Stage Piezocision-Assisted Orthodontic Tooth Movement: A Preclinical Study Based on Nano-CT and RT-PCR Analyses

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