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2. Beyond Plastic: Oleogel as gel-state biodegradable thermoplastics

Author

Lamanna, L, Corigliano, G, Narayanan, A, Villani, S, Friuli, M, Chietera, F, Stanca, B, Giannotti, L, Siculella, L, Colella, R, Catarinucci, L, Athanassiou, A, Cataldi, P, Demitri, C, Caironi, M, Sannino, A, Lamanna L., Corigliano G., Narayanan A., Villani S., Friuli M., Chietera F. P., Stanca B. D. C., Giannotti L., Siculella L., Colella R., Catarinucci L., Athanassiou A., Cataldi P., Demitri C., Caironi M., Sannino A., Lamanna, L, Corigliano, G, Narayanan, A, Villani, S, Friuli, M, Chietera, F, Stanca, B, Giannotti, L, Siculella, L, Colella, R, Catarinucci, L, Athanassiou, A, Cataldi, P, Demitri, C, Caironi, M, Sannino, A, Lamanna L., Corigliano G., Narayanan A., Villani S., Friuli M., Chietera F. P., Stanca B. D. C., Giannotti L., Siculella L., Colella R., Catarinucci L., Athanassiou A., Cataldi P., Demitri C., Caironi M., and Sannino A.

Abstract

The crisis of plastic waste highlights the urgent need for sustainable alternatives. Bioplastics are seen as a potential solution; however, challenges persist as many are still derived from petroleum, lack biodegradability, or fall short in essential properties such as mechanical strength, chemical stability, and ease of processing. This study pioneers the use of ethyl cellulose-based oleogels as bioderived and biodegradable thermoplastics. These groundbreaking bioplastics, obtained from renewable sources and waste oils, represent an environmentally friendly and high-performance alternative to traditional plastics. The bioplastic named OleoPlast is processed at temperatures ranging from 130 to 165 degrees C, utilizing different biobased oils and adjusting the oil-to-polymer ratio from 10:3.5 to 1:2. This process yields a high level of versatility, offering broad opportunities for customized applications in both research and industry. Remarkable stability under harsh environmental conditions and biocompatibility pave the way for the adoption of such bioplastics in biocomposite structures, food packaging, green electronics, and tissue engineering. Scalability is ensured by compatibility with both large-scale and highresolution manufacturing processes, including injection and compression molding, computer numeric control (CNC) milling, and 3D fusion deposition modeling. Overall, this work lays the foundation for a new class of gel-state bioplastics, favoring the transition from traditional thermoplastics to sustainable options with vast perspectives of further exploration and customization in both laboratory and industrial environments.

Published
2024

13. Expression of the mitochondrial tricarboxylate carrier is associated with high level of intramuscular fat in cattle

Author

Gnoni, G.V., Siculella, L., Bauchart, Dominique, Pethick, D.W., Hocquette, Jean-François, ProdInra, Migration, University of Lecce, Unité de Recherches sur les Herbivores (URH), Institut National de la Recherche Agronomique (INRA), and Murdoch University

Subjects
BOVIN, [SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], BIOLOGIE CELLULAIRE, [INFO]Computer Science [cs], BIOLOGIE MOLECULAIRE, [INFO] Computer Science [cs], ComputingMilieux_MISCELLANEOUS, MITOCHONDRIAL TRICARBOXYLATE, INTRAMUSCULAR FAT
Abstract

International audience

Published
2006

15. Transcription of two sunflower (Helianthus annuus L.) mitochondrial tRNA genes having different genetic origins

Author

Damiano F., Ceci L.R., Siculella L., and Gallerani R.

Abstract

The divergent transcription of two tRNA genes encoded in sunflower mitochondrial DNA, proposed as genes of different genetic origin, has been studied in detail. The transcription initiation site (TIS) for both transcript precursors has been identified by hybridization with in vitro (32)P-capped total RNAs and primer extension. The location of two TISs and the analysis of distribution of sequence elements (motifs) usually present in higher plant mitochondrial promoters led to the identification of two short regions (about 30-40 bp) which can be proposed as the promoters for the transcription of two genes. This conclusion is supported by the observation that within the short intergenic region included between the 5' termini of two genes (1924 bp) the distribution of those specific motifs is unique around the TISs, although not identical for the two promoters. Based on specific experimental results the trnE promoter shows a higher efficiency in comparison with that of the trnH promoter. This result is in good agreement with its structure which strictly conforms to those described for mitochondrial genes of dicot plants. Instead the other promoter shows some divergences which could be responsible for its lower efficiency. The context in which trnH lies in the sunflower mitochondrial genome and other features described in the paper may suggest that, despite the high similarity with the chloroplast counterpart, the trnH gene could have a native origin.

Published
2002

25. GTG as translation initiation codon in the apocytochrome b gene of sunflower mitochondria

Author

Siculella, L., Pacoda, D., Treglia, S., Gallerani, R., and Ceci, L. R.

Abstract

Sunflower mitochondrial DNA contains a single copy of the cob gene. The gene begins with the unusual GTG initiation codon and lies in a transcription unit having a different organization with respect to that common to the other six known sequences from plant species which include both monocotyledons and dicotyledons.

Published
1996
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29. Rid7C, a Member of the YjgF/YER057c/UK114 (Rid) Protein Family, Is a Novel Endoribonuclease That Regulates the Expression of a Specialist RNA Polymerase Involved in Differentiation in Nonomuraea gerenzanensis

Author

Laura Giannotti, Matteo Calcagnile, Fabrizio Damiano, Pietro Alifano, Luisa Siculella, Salvatore Maurizio Tredici, Daniela Pasanisi, Adelfia Talà, Damiano, F., Calcagnile, M., Pasanisi, D., Tala, A., Tredici, S. M., Giannotti, L., Siculella, L., and Alifano, P.

Subjects
Untranslated region, Messenger RNA, Rid endoribonuclease, Actinomycete, YjgF/YER057c/UK114 family proteins, RNase P, Endoribonuclease activity, Endoribonuclease, RNA, Biology, rpoB, Microbiology, chemistry.chemical_compound, Biochemistry, chemistry, RNA polymerase, Secondary metabolism, Molecular Biology, Research Article
Abstract

The YjgF/YER057c/UK114 (Rid) is a protein family breadth conserved in all domains of life and includes the widely distributed archetypal RidA (YjgF) subfamily and seven other subfamilies (Rid1 to Rid7). Among these subfamilies, RidA is the only family to have been biochemically well characterized and is involved in the deamination of the reactive enamine/imine intermediates. In this study, we have characterized a protein of the Rid7 subfamily, named Rid7C, in Nonomuraea gerenzanensis, an actinomycete that is characterized by the presence of two types of RNA polymerases. This is due to the coexistence in its genome of two RNA polymerase (RNAP) b chain-encoding genes, rpoB(S) (the wild-type rpoB gene) and rpoB(R) (a specialist, mutant-type rpoB gene) that controls A40926 antibiotic production and a wide range of metabolic adaptive behaviors. Here, we found that expression of rpoB(R) is regulated posttranscriptionally by RNA processing in the 59 untranslated region (UTR) of rpoB(R) mRNA and that the endoribonuclease activity of Rid7C is responsible for mRNA processing, thereby overseeing several tracts of morphological and biochemical differentiation. We also provide evidence that Rid7C may be associated with RNase P M1 RNA, although M1 RNA is not required for rpoB(R) mRNA processing in vitro, and that Rid7C endoribonuclease activity is inhibited by A40926, suggesting the existence of a negative feedback loop in A40926 production and a role of the endogenous synthesis of A40926 in the modulation of biochemical differentiation in this microorganism. IMPORTANCE The YjgF/YER057c/UK114 family includes many proteins with diverse functions involved in detoxification, RNA maturation, and control of mRNA translation. We found that Rid7C is an endoribonuclease that is involved in processing of rpoB(R) mRNA, coding for a specialized RNA polymerase beta subunit that oversees morphological differentiation and A40926 antibiotic production in Nonomuraea gerenzanensis. Rid7C-mediated processing promotes rpoB(R) mRNA translation and antibiotic production, while Rid7C endoribonuclease activity is inhibited by A40926, suggesting a role of the endogenous synthesis of A40926 in modulation of biochemical differentiation in this microorganism. Finally, we show that recombinant Rid7C copurified with M1 RNA (the RNA subunit of RNase P) from Escherichia coli extract, suggesting a functional interaction between Rid7C and M1 RNA activities.

Published
2022

30. Quercetin Reduces Lipid Accumulation in a Cell Model of NAFLD by Inhibiting De Novo Fatty Acid Synthesis through the Acetyl-CoA Carboxylase 1/AMPK/PP2A Axis

Author

Antonio Gnoni, Benedetta Di Chiara Stanca, Laura Giannotti, Gabriele Vincenzo Gnoni, Luisa Siculella, Fabrizio Damiano, Gnoni, A., Di Chiara Stanca, B., Giannotti, L., Gnoni, G. V., Siculella, L., and Damiano, F.

Subjects
QH301-705.5, citrate carrier, Hep G2 Cell, AMP-Activated Protein Kinases, Models, Biological, De novo lipogenesi, Catalysis, Inorganic Chemistry, Citrate carrier, Non-alcoholic Fatty Liver Disease, acetyl-CoA carboxylase 1, AMP-activated protein kinase, de novo lipogenesis, endoplasmic reticulum stress, quercetin, non-alcoholic fatty liver disease, protein phosphatase 2A, sterol regulatory element-binding protein 1, Endoplasmic reticulum stre, Non‐alcoholic fatty liver disease, Humans, Protein Phosphatase 2, Physical and Theoretical Chemistry, Biology (General), Phosphorylation, Protein phosphatase 2A, Molecular Biology, QD1-999, Spectroscopy, Gene Expression Profiling, Lipogenesis, Organic Chemistry, Fatty Acids, Lipogenesi, General Medicine, Hep G2 Cells, Sterol regulatory element‐binding protein 1, Acetyl‐CoA carboxylase 1, AMP‐activated protein kinase, Computer Science Applications, Chemistry, Quercetin, AMP-Activated Protein Kinase, Fatty Acid, Human, Acetyl-CoA Carboxylase, Signal Transduction
Abstract

Dysregulation of de novo lipogenesis (DNL) has recently gained strong attention as being one of the critical factors that contribute to the assessment of non-alcoholic fatty liver disease (NAFLD). NAFLD is often diagnosed in patients with dyslipidemias and type 2 diabetes; thus, an interesting correlation can be deduced between high hematic free fatty acids and glucose excess in the DNL dysregulation. In the present study, we report that, in a cellular model of NAFLD, the coexistence of elevated glucose and FFA conditions caused the highest cellular lipid accumulation. Deepening the molecular mechanisms of the DNL dysregulation—RT-qPCR and immunoblot analysis demonstrated increased expression of mitochondrial citrate carrier (CiC), cytosolic acetyl-CoA carboxylase 1 (ACACA), and diacylglycerol acyltransferase 2 (DGAT2) involved in fatty acids and triglycerides synthesis, respectively. XBP-1, an endoplasmic reticulum stress marker, and SREBP-1 were the transcription factors connected to the DNL activation. Quercetin (Que), a flavonoid with strong antioxidant properties, and noticeably reduced the lipid accumulation and the expression of SREBP-1 and XBP-1, as well as of their lipogenic gene targets in steatotic cells. The anti-lipogenic action of Que mainly occurs through a strong phosphorylation of ACACA, which catalyzes the committing step in the DNL pathway. The high level of ACACA phosphorylation in Que-treated cells was explained by the intervention of AMPK together with the reduction of enzymatic activity of PP2A phosphatase. Overall, our findings highlight a direct anti-lipogenic effect of Que exerted through inhibition of the DNL pathway by acting on ACACA/AMPK/PP2A axis; thus, suggesting this flavonoid as a promising molecule for the NAFLD treatment.

Published
2021

31. Analysis of CGF Biomolecules, Structure and Cell Population: Characterization of the Stemness Features of CGF Cells and Osteogenic Potential

Author

Benedetta Di Chiara Stanca, Giuseppe E. De Benedetto, Laura Giannotti, Franco Ferrante, Alessio Rochira, Nadia Calabriso, Christian Demitri, Andrea Palermo, Paola Nitti, Luisa Siculella, Eleonora Stanca, Fabrizio Damiano, Maria Annunziata Carluccio, Stanca, E., Calabriso, N., Giannotti, L., Nitti, P., Damiano, F., Stanca, B. D. C., Carluccio, M. A., De Benedetto, G. E., Demitri, C., Palermo, A., Ferrante, F., Siculella, L., and Rochira, A.

Subjects
Male, QH301-705.5, blood-derived biomaterials, Blood-derived biomaterial, medicine.medical_treatment, Population, Cell, osteogenic differentiation, Stem cells, Matrix (biology), Matrix metalloproteinase, Regenerative medicine, Article, Catalysis, Flow cytometry, Inorganic Chemistry, Osteogenesis, stem cells, Osteogenic differentiation, medicine, Humans, Physical and Theoretical Chemistry, Biology (General), education, Molecular Biology, QD1-999, CGF, Cells, Cultured, Spectroscopy, Cell Proliferation, education.field_of_study, Osteoblasts, medicine.diagnostic_test, Chemistry, Growth factor, Organic Chemistry, Cell Differentiation, growth factor, General Medicine, Computer Science Applications, Cell biology, medicine.anatomical_structure, Intercellular Signaling Peptides and Proteins, Female, Stem cell
Abstract

Concentrated Growth Factors (CGF) represent new autologous (blood-derived biomaterial), attracting growing interest in the field of regenerative medicine. In this study, the chemical, structural, and biological characterization of CGF was carried out. CGF molecular characterization was performed by GC/MS to quantify small metabolites and by ELISA to measure growth factors and matrix metalloproteinases (MMPs) release, structural CGF characterization was carried out by SEM analysis and immunohistochemistry, CGF has been cultured, and its primary cells were isolated for the identification of their surface markers by flow cytometry, Western blot, and real-time PCR, finally, the osteogenic differentiation of CGF primary cells was evaluated through matrix mineralization by alizarin red staining and through mRNA quantification of osteogenic differentiation markers by real-time PCR. We found that CGF has a complex inner structure capable of influencing the release of growth factors, metabolites, and cells. These cells, which could regulate the production and release of the CGF growth factors, show stem features and are able to differentiate into osteoblasts producing a mineralized matrix. These data, taken together, highlight interesting new perspectives for the use of CGF in regenerative medicine.

Published
2021
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32. Angiogenic Properties of Concentrated Growth Factors (CGFs): The Role of Soluble Factors and Cellular Components

Author

Egeria Scoditti, Alessio Rochira, Andrea Palermo, Eleonora Stanca, Paola Nitti, Maria Annunziata Carluccio, Laura Giannotti, Luisa Siculella, Nadia Calabriso, Christian Demitri, Fabrizio Damiano, Marika Massaro, Benedetta Di Chiara Stanca, Calabriso, N., Stanca, E., Rochira, A., Damiano, F., Giannotti, L., Di Chiara Stanca, B., Massaro, M., Scoditti, E., Demitri, C., Nitti, P., Palermo, A., Siculella, L., and Carluccio, M. A.

Subjects
endothelial progenitor cells (EPCs), Angiogenesis, Endothelial progenitor cells (EPCs), Pharmaceutical Science, tissue regeneration, Concentrated growth factors (CGFs), Article, vasculogenesis, Neovascularization, 03 medical and health sciences, angiogenesis, 0302 clinical medicine, Vasculogenesis, Pharmacy and materia medica, Endothelial cell, concentrated growth factors (CGFs), medicine, Progenitor cell, pro-angiogenic factors, 030304 developmental biology, 0303 health sciences, Matrigel, endothelial markers, Chemistry, matrix metalloproteinases, Cell migration, 030206 dentistry, Biomaterial, Endothelial marker, endothelial cells, Cell biology, Matrix metalloproteinase, Endothelial stem cell, RS1-441, Angiogenesi, Tissue regeneration, Pro-angiogenic factor, medicine.symptom, Wound healing, biomaterials
Abstract

Blood-derived concentrated growth factors (CGFs) represent a novel autologous biomaterial with promising applications in regenerative medicine. Angiogenesis is a key factor in tissue regeneration, but the role played by CGFs in vessel formation is not clear. The purpose of this study was to characterize the angiogenic properties of CGFs by evaluating the effects of its soluble factors and cellular components on the neovascularization in an in vitro model of angiogenesis. CGF clots were cultured for 14 days in cell culture medium, after that, CGF-conditioned medium (CGF-CM) was collected, and soluble factors and cellular components were separated and characterized. CGF-soluble factors, such as growth factors (VEGF and TGF-β1) and matrix metalloproteinases (MMP-2 and -9), were assessed by ELISA. Angiogenic properties of CGF-soluble factors were analyzed by stimulating human cultured endothelial cells with increasing concentrations (1%, 5%, 10%, or 20%) of CGF-CM, and their effect on cell migration and tubule-like formation was assessed by wound healing and Matrigel assay, respectively. The expression of endothelial angiogenic mediators was determined using qRT-PCR and ELISA assays. CGF-derived cells were characterized by immunostaining, qRT-PCR and Matrigel assay. We found that CGF-CM, consisting of essential pro-angiogenic factors, such as VEGF, TGF-β1, MMP-9, and MMP-2, promoted endothelial cell migration, tubule structure formation, and endothelial expression of multiple angiogenic mediators, including growth factors, chemokines, and metalloproteinases. Moreover, we discovered that CGF-derived cells exhibited features such as endothelial progenitor cells, since they expressed the CD34 stem cell marker and endothelial markers and participated in the neo-angiogenic process. In conclusion, our results suggest that CGFs are able to promote endothelial angiogenesis through their soluble and cellular components and that CGFs can be used as a biomaterial for therapeutic vasculogenesis in the field of tissue regeneration.

Published
2021

33. Evidence for a Negative Correlation between Human Reactive Enamine-Imine Intermediate Deaminase A (RIDA) Activity and Cell Proliferation Rate: Role of Lysine Succinylation of RIDA

Author

Eleonora Stanca, Benedetta Di Chiara Stanca, Alessio Rochira, Pietro Alifano, Laura Giannotti, Matteo Calcagnile, Luisa Siculella, Fabrizio Damiano, Siculella, L., Giannotti, L., Di Chiara Stanca, B., Calcagnile, M., Rochira, A., Stanca, E., Alifano, P., and Damiano, F.

Subjects
0301 basic medicine, Models, Molecular, Protein Conformation, Lysine, lysine succinylation, Gene Expression, lcsh:Chemistry, Succinylation, 0302 clinical medicine, metabolic sensor, Sirtuins, reactive imine/enamine intermediate deaminase A, Cancer proliferation, lcsh:QH301-705.5, Spectroscopy, Heat-Shock Proteins, chemistry.chemical_classification, Chemistry, Heat-Shock Protein, General Medicine, Computer Science Applications, cancer proliferation, Biochemistry, 030220 oncology & carcinogenesis, Human, SIRT5, In silico, 3D protein modeling, Catalysis, Article, Cell Line, Inorganic Chemistry, Ribonuclease, 03 medical and health sciences, Structure-Activity Relationship, Ribonucleases, Sirtuin, Humans, Physical and Theoretical Chemistry, Molecular Biology, Cell Proliferation, Lysine succinylation, Cell growth, Organic Chemistry, HEK 293 cells, Metabolic sensor, Enzyme Activation, L-PSP, 030104 developmental biology, Enzyme, lcsh:Biology (General), lcsh:QD1-999, Cell culture, Reactive imine/enamine intermediate deaminase A, YigF/YER057c/UK114, Protein Processing, Post-Translational
Abstract

Reactive intermediate deaminase (Rid) proteins are enzymes conserved in all domains of life. UK114, a mammalian member of RidA subfamily, has been firstly identified as a component of liver perchloric acid-soluble proteins (L-PSP). Although still poorly defined, several functions have been attributed to the mammalian protein UK114/RIDA, including the reactive intermediate deamination activity. The expression of UK114/RIDA has been observed in some tumors, arousing interest in this protein as an evaluable tumor marker. However, other studies reported a negative correlation between UK114/RIDA expression, tumor differentiation degree and cell proliferation. This work addressed the question of UK114/RIDA expression in human non-tumor HEK293 cell lines and in some human tumor cell lines. Here we reported that human RIDA (hRIDA) was expressed in all the analyzed cell line and subjected to lysine (K-)succinylation. In HEK293, hRIDA K-succinylation was negatively correlated to the cell proliferation rate and was under the control of SIRT5. Moreover, K-succinylation clearly altered hRIDA quantification by immunoblotting, explaining, at least in part, some discrepancies about RIDA expression reported in previous studies. We found that hRIDA was able to deaminate reactive enamine-imine intermediates and that K-succinylation drastically reduced deaminase activity. As predicted by in silico analysis, the observed reduction of deaminase activity has been related to the drastic alterations of hRIDA structure inferred by K-succinylation. The role of hRIDA and the importance of its K-succinylation in cell metabolism, especially in cancer biology, have been discussed.

Published
2021

34. Enhancing Bioactivity of Hydroxyapatite Scaffolds Using Fibrous Type I Collagen

Author

Serena Cortazzi, Paola Nitti, Eleonora Stanca, Luisa Siculella, Antonio Licciulli, Sanosh Kunjalukkal Padmanabhan, Christian Demitri, Nitti, P., Kunjalukkal Padmanabhan, S., Cortazzi, S., Stanca, E., Siculella, L., Licciulli, A., and Demitri, C.

Subjects
collagen, Scaffold, Histology, lcsh:Biotechnology, freeze - drying, Composite number, Biomedical Engineering, Bioengineering, 02 engineering and technology, magnesium, 010402 general chemistry, Bone tissue, 01 natural sciences, biodegradability, bone regeneration, collagen, freeze drying, hydroxyapatite, magnesium, silicon, Bone remodeling, Freeze-drying, bone regeneration, biodegradability, lcsh:TP248.13-248.65, medicine, Bone regeneration, Original Research, Chemistry, Regeneration (biology), Bioengineering and Biotechnology, hydroxyapatite, silicon, 021001 nanoscience & nanotechnology, 0104 chemical sciences, medicine.anatomical_structure, 0210 nano-technology, Type I collagen, Biotechnology, Biomedical engineering
Abstract

In the field of bone tissue regeneration, the development of osteoconductive and osteoinductive scaffolds is an open challenge. The purpose of this work was the design and characterization of composite structures made of hydroxyapatite scaffold impregnated with a collagen slurry in order to mimic the bone tissue structure. The effect of magnesium and silicon ions enhancing both mechanical and biological properties of partially substituted hydroxyapatite were evaluated and compared with that of pure hydroxyapatite. The use of an innovative freeze-drying approach was developed, in which composite scaffolds were immersed in cold water, frozen and then lyophilized, thereby creating an open-pore structure, an essential feature for tissue regeneration. The mechanical stability of bone scaffolds is very important in the first weeks of slow bone regeneration process. Therefore, the biodegradation behavior of 3D scaffolds was evaluated by incubating them for different periods of time in Tris-HCl buffer. The microstructure observation, the weight loss measurements and mechanical stability up to 28 days of incubation (particularly for HA-Mg_Coll scaffolds), revealed moderate weight loss and mechanical performances reduction due to collagen dissolution. At the same time, the presence of collagen helps to protect the ceramic structure until it degrades. These results, combined with MTT tests, confirm that HA-Mg_Coll scaffolds may be the suitable candidate for bone remodeling.

Published
2021

35. Concentrated Growth Factors (CGF) Induce Osteogenic Differentiation in Human Bone Marrow Stem Cells

Author

Franco Ferrante, Nadia Calabriso, Laura Giannotti, Fabrizio Damiano, Alessio Rochira, Luisa Siculella, Eleonora Stanca, Andrea Palermo, Maria Annunziata Carluccio, Rochira, A., Siculella, L., Damiano, F., Palermo, A., Ferrante, F., Carluccio, M. A., Calabriso, N., Giannotti, L., and Stanca, E.

Subjects
0301 basic medicine, medicine.medical_treatment, Cell, osteogenic differentiation, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Concentrated Growth Factors (CGF), Bone tissue engineering, 03 medical and health sciences, 0302 clinical medicine, Osteogenic differentiation, medicine, Bone regeneration, hBMSC, bone tissue engineering, General Immunology and Microbiology, Growth factor, Mesenchymal stem cell, 030206 dentistry, In vitro, Cell biology, Blot, 030104 developmental biology, medicine.anatomical_structure, Alkaline phosphatase, HBMSC, Stem cell, General Agricultural and Biological Sciences
Abstract

Bone regeneration is a complex process regulated by several factors that control overlapping biological processes, coordinating interactions among distinct cell populations. There is a great interest in identifying new strategies for inducing osteogenesis in a safe and efficient manner. Concentrated Growth Factor (CGF) is an autologous blood derived product obtained by centrifugation of venous blood following the procedure set on the Silfradent device. In this study the effects of CGF on osteogenic differentiation of human Bone Marrow Stem Cells (hBMSC) in vitro have been investigated, hBMSC were cultured with CGF or osteogenic medium, for 21 days. The osteogenic differentiation was evaluated measuring alkaline phosphatase (ALP) enzyme activity, matrix mineralization by alizarin red staining and through mRNA and protein quantification of osteogenic differentiation markers by Real-time PCR and Western blotting, respectively. The treatment with CGF stimulated ALP activity and promoted matrix mineralization compared to control and seems to be more effective than osteogenic medium. Also, hBMSC lost mesenchymal markers and showed other osteogenic features. Our study showed for the first time that CGF alone is able to induce osteogenic differentiation in hBMSC. The application of CGF on hBMSC osteoinduction might offer new clinical and biotechnological strategies in the tissue regeneration field.

Published
2020

36. Interplay between Non-Coding RNA Transcription, Stringent/Relaxed Phenotype and Antibiotic Production in Streptomyces ambofaciens

Author

Luisa Siculella, Pietro Alifano, Antonio Pennetta, Eva Pinatel, Giuseppe E. De Benedetto, Fabrizio Damiano, Adelfia Talà, Matteo Calcagnile, Gianluca De Bellis, Clelia Peano, Pinatel, E., Calcagnile, M., Tala, A., Damiano, F., Siculella, L., Peano, C., De Benedetto, G. E., Pennetta, A., De Bellis, G., and Alifano, P.

Subjects
NcRNA, Microbiology (medical), re-defined transcriptome, Stringent response, RM1-950, Biochemistry, Microbiology, Streptomyces, chemistry.chemical_compound, Transcription (biology), RNA polymerase, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics, Regulation of gene expression, Genetics, biology, Effector, Promoter, stringent response, biology.organism_classification, Non-coding RNA, ncRNA, Re-defined transcriptome, Infectious Diseases, Streptomyce, chemistry, antibiotic production, Antibiotic production, Therapeutics. Pharmacology
Abstract

While in recent years the key role of non-coding RNAs (ncRNAs) in the regulation of gene expression has become increasingly evident, their interaction with the global regulatory circuits is still obscure. Here we analyzed the structure and organization of the transcriptome of Streptomyces ambofaciens, the producer of spiramycin. We identified ncRNAs including 45 small-RNAs (sRNAs) and 119 antisense-RNAs (asRNAs I) that appear transcribed from dedicated promoters. Some sRNAs and asRNAs are unprecedented in Streptomyces and were predicted to target mRNAs encoding proteins involved in transcription, translation, ribosomal structure and biogenesis, and regulation of morphological and biochemical differentiation. We then compared ncRNA expression in three strains: (i) the wild-type strain, (ii) an isogenic pirA-defective mutant with central carbon metabolism imbalance, “relaxed” phenotype, and repression of antibiotic production, and (iii) a pirA-derivative strain harboring a “stringent” RNA polymerase that suppresses pirA-associated phenotypes. Data indicated that the expression of most ncRNAs was correlated to the stringent/relaxed phenotype suggesting novel effector mechanisms of the stringent response.

Published
2021

37. Quercetin inhibition of SREBPs and ChREBP expression results in reduced cholesterol and fatty acid synthesis in C6 glioma cells

Author

Gabriele V. Gnoni, Luisa Siculella, Laura Giannotti, Antonio Gnoni, Fabrizio Damiano, Damiano, F., Giannotti, L., Gnoni, G. V., Siculella, L., and Gnoni, A.

Subjects
0301 basic medicine, Reductase, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Lipid biosynthesis, C6 glioma cell, Cholesterol and fatty acid synthesi, Animals, Humans, Fatty acid synthesis, ChREBP and SREBP, chemistry.chemical_classification, biology, Cholesterol, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Fatty Acids, Fatty acid, Lipid metabolism, Cell Biology, Glioma, Acetyl-CoA carboxylase 1, Acetyl-CoA Carboxylase 1, 3-Hydroxy-3-methyl-glutaryl-CoA reductase, Rats, Fatty acid synthase, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, biology.protein, lipids (amino acids, peptides, and proteins), Quercetin, Sterol Regulatory Element Binding Protein 1
Abstract

Quercetin (Que), a widely distributed flavonoid in the human diet, exerts neuroprotective action because of its property to antagonize oxidative stress. Here, we investigated the effects of Que on lipid synthesis in C6 glioma cells. A rapid Que-induced inhibition of cholesterol and, to a lesser extent, of fatty acid synthesis from [1-14C]acetate was observed. The maximum decrease was detected at the level of palmitate, the end product of de novo fatty acid synthesis. The effect of Que on the enzyme activities of acetyl-CoA carboxylase 1 (ACC1) and fatty acid synthase (FAS), the two enzymes of this pathway, was investigated directly in situ in permeabilized C6 cells. An inhibitory effect on ACC1 was observed after 4 h of 25 μM Que treatment, while FAS activity was not affected. A reduction of polar lipid biosynthesis was also detected. A remarkable decrease of 3-hydroxy-3-methylglutaryl-CoA reductase (HMGCR) activity, regulatory enzyme of cholesterol synthesis, was evidenced. Expression studies demonstrated that Que acts at transcriptional level, by reducing the mRNA abundance and protein amount of ACC1 and HMGCR. Deepening the molecular mechanism, we found that Que decreased the expression of SREBP-1 and SREBP-2, transcriptional factors representing the main regulators of de novo fatty acid and cholesterol synthesis, respectively. Que also reduced the nuclear content of ChREBP, a glucose-induced transcription factor involved in the regulation of lipogenic genes. Our results represent the first evidence that a direct and rapid downregulatory effect of Que on cholesterol and de novo fatty acid synthesis is elicited in C6 cells.

Published
2019

38. In Steatotic Cells, ATP-Citrate Lyase mRNA Is Efficiently Translated through a Cap-Independent Mechanism, Contributing to the Stimulation of De Novo Lipogenesis

Author

Luisa Siculella, Laura Giannotti, Gabriele V. Gnoni, Fabrizio Damiano, Mariangela Testini, Siculella, L., Giannotti, L., Testini, M., Gnoni, G. V., and Damiano, F.

Subjects
Untranslated region, ATP citrate lyase, internal ribosome entry site, Internal ribosome entry site, lipid droplets, Lipid droplet, cap-independent translation, Cap-independent translation, Article, De novo lipogenesi, Catalysis, lcsh:Chemistry, Inorganic Chemistry, Non-alcoholic Fatty Liver Disease, Translational regulation, Endoplasmic reticulum stre, Humans, RNA, Messenger, Physical and Theoretical Chemistry, lcsh:QH301-705.5, Molecular Biology, Non-alcoholic fatty liver diseases, Spectroscopy, Chemistry, Lipogenesis, Endoplasmic reticulum, Organic Chemistry, Translation (biology), Hep G2 Cells, General Medicine, Computer Science Applications, Cell biology, ATP-citrate lyase, de novo lipogenesis, lcsh:Biology (General), lcsh:QD1-999, Protein Biosynthesis, atp-citrate lyase, ATP Citrate (pro-S)-Lyase, Hepatocytes, endoplasmic reticulum stress, non-alcoholic fatty liver diseases, 5' Untranslated Regions
Abstract

Non-alcoholic fatty liver disease (NAFLD) is a chronic disease in which excessive amount of lipids is accumulated as droplets in hepatocytes. Recently, cumulative evidences suggested that a sustained de novo lipogenesis can play an important role in NAFLD. Dysregulated expression of lipogenic genes, including ATP-citrate lyase (ACLY), has been found in liver diseases associated with lipid accumulation. ACLY is a ubiquitous cytosolic enzyme positioned at the intersection of nutrients catabolism and cholesterol and fatty acid biosyntheses. In the present study, the molecular mechanism of ACLY expression in a cell model of steatosis has been reported. We identified an internal ribosome entry site (IRES) in the 5&prime, untranslated region of the ACLY mRNA, that can support an efficient mRNA translation through a Cap-independent mechanism. In steatotic HepG2 cells, ACLY expression was up-regulated through IRES-mediated translation. Since it has been demonstrated that lipid accumulation in cells induces endoplasmic reticulum (ER) stress, the involvement of this cellular pathway in the translational regulation of ACLY has been also evaluated. Our results showed that ACLY expression was increased in ER-stressed cells, through IRES-mediated translation of ACLY mRNA. A potential role of the Cap-independent translation of ACLY in NAFLD has been discussed.

Published
2020

39. Translational control of human acetyl-CoA carboxylase 1 mRNA is mediated by an internal ribosome entry site in response to ER stress, serum deprivation or hypoxia mimetic CoCl2

Author

Mariangela Testini, Romina Tocci, Fabrizio Damiano, Luisa Siculella, Gabriele V. Gnoni, Damiano, F, Testini, M, Tocci, R, Gnoni, Gv, and Siculella, L

Subjects
0301 basic medicine, Untranslated region, Messenger RNA, Lipid metabolism dysregulation, Endoplasmic reticulum, Internal ribosome entry site, Translational reprogramming, Lipogenesi, Translation (biology), Cell Biology, Tunicamycin, Cell biology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Protein biosynthesis, Unfolded protein response, Endoplasmic reticulum stre, Molecular Biology, Acetyl-CoA Carboxylase
Abstract

Acetyl-CoA carboxylase 1 (ACC1) is a cytosolic enzyme catalyzing the rate limiting step in de novo fatty acid biosynthesis. There is mounting evidence showing that ACC1 is susceptible to dysregulation and that it is over-expressed in liver diseases associated with lipid accumulation and in several cancers. In the present study, ACC1 regulation at the translational level is reported. Using several experimental approaches, the presence of an internal ribosome entry site (IRES) has been established in the 5' untranslated region (5' UTR) of the ACC1 mRNA. Transfection experiments with the ACC1 5' UTR inserted in a dicistronic reporter vector show a remarkable increase in the downstream cistron translation, through a cap-independent mechanism. The endoplasmic reticulum (ER) stress condition and the related unfolded protein response (UPR), triggered by treatment with thapsigargin and tunicamycin, cause an increase of the cap-independent translation of ACC1 mRNA in HepG2 cells, despite the overall reduction in global protein synthesis. Other stress conditions, such as serum starvation and incubation with hypoxia mimetic agent CoCl2, up-regulate ACC1 expression in HepG2 cells at the translational level. Overall, these findings indicate that the presence of an IRES in the ACC1 5' UTR allows ACC1 mRNA translation in conditions that are inhibitory to cap-dependent translation. A potential involvement of the cap-independent translation of ACC1 in several pathologies, such as obesity and cancer, has been discussed.

Published
2018

40. Oleic Acid and Hydroxytyrosol Inhibit Cholesterol and Fatty Acid Synthesis in C6 Glioma Cells

Author

Priore, Paola, Gnoni, Antonio, Natali, Francesco, Testini, Mariangela, Gnoni, Gabriele V., Siculella, Luisa, Damiano, Fabrizio, Priore, P, Gnoni, A, Natali, F, Testini, M, Gnoni, Gv, Siculella, L, and Damiano, F.

Subjects
0301 basic medicine, Aging, Fatty Acid Synthases, Article Subject, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Cell Line, Tumor, Lipid biosynthesis, Animals, lcsh:QH573-671, Olive Oil, Fatty acid synthesis, chemistry.chemical_classification, Cholesterol, lcsh:Cytology, Anticholesteremic Agents, Fatty acid, Lipid metabolism, Glioma, Cell Biology, General Medicine, Phenylethyl Alcohol, Lipid Metabolism, Rats, Oleic acid, 030104 developmental biology, chemistry, Hydroxytyrosol, lipids (amino acids, peptides, and proteins), Research Article, Oleic Acid
Abstract

Recently, the discovery of natural compounds capable of modulating nervous system function has revealed new perspectives for a healthier brain. Here, we investigated the effects of oleic acid (OA) and hydroxytyrosol (HTyr), two important extra virgin olive oil compounds, on lipid synthesis in C6 glioma cells. OA and HTyr inhibited both de novo fatty acid and cholesterol syntheses without affecting cell viability. The inhibitory effect of the individual compounds was more pronounced if OA and HTyr were administered in combination. A reduction of polar lipid biosynthesis was also detected, while triglyceride synthesis was marginally affected. To clarify the lipid-lowering mechanism of these compounds, their effects on the activity of key enzymes of fatty acid biosynthesis (acetyl-CoA carboxylase-ACC and fatty acid synthase-FAS) and cholesterologenesis (3-hydroxy-3-methylglutaryl-CoA reductase-HMGCR) were investigated in situ by using digitonin-permeabilized C6 cells. ACC and HMGCR activities were especially reduced after 4 h of 25 μM OA and HTyr treatment. No change in FAS activity was observed. Inhibition of ACC and HMGCR activities is corroborated by the decrease of their mRNA abundance and protein level. Our results indicate a direct and rapid downregulatory effect of the two olive oil compounds on lipid synthesis in C6 cells.

Published
2017

41. Release of VEGF from Dental Implant Surface (IML® Implant) Coated with Concentrated Growth Factors (CGF) and the Liquid Phase of CGF (LPCGF): In Vitro Results and Future Expectations

Author

Tiziano Batani, Andrea Palermo, Eleonora Stanca, Luisa Siculella, Antonio Gnoni, Maria Annunziata Carluccio, Fabrizio Damiano, Franco Ferrante, Christian Demitri, Palermo, A., Ferrante, F., Stanca, E., Damiano, F., Gnoni, A., Batani, T., Carluccio, M. A., Demitri, C., and Siculella, L.

Subjects
Dental implant, medicine.medical_treatment, VEGF receptors, Bilateral osseointegration, 02 engineering and technology, lcsh:Technology, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, General Materials Science, lcsh:QH301-705.5, Instrumentation, Fluid Flow and Transfer Processes, dental implant, biology, lcsh:T, Process Chemistry and Technology, Growth factor, General Engineering, growth factor, 030206 dentistry, Adhesion, 021001 nanoscience & nanotechnology, lcsh:QC1-999, In vitro, Computer Science Applications, Vascular endothelial growth factor, lcsh:Biology (General), lcsh:QD1-999, bilateral osseointegration, chemistry, lcsh:TA1-2040, biology.protein, Implant, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, Wound healing, lcsh:Physics, Biomedical engineering
Abstract

This study aimed to evaluate the combined use of the Concentrated Growth Factor (CGF) and the liquid phase of CGF (LPCGF) on dental implant surfaces, using a medical device to determine the migration of growth factors, from the implant surface to the recipient. The implants were permeated by autologous growth factors, using a specific centrifuge device. CGF adhesion on the implant surface was evaluated through a scanning electron microscope analysis. To assess the release of the vascular endothelial growth factor (VEGF) from CGF, LPCGF, and CGF- or LPCGF-permeated implant, an ELISA assay was carried out. The results showed that the concentration of the growth factor VEGF was greater in CGF than in LPCGF. Our innovative technique allowed the incorporation of autologous growth factors on the surface of the dental implants. Moreover, we reported the release of VEGF, over time, by CGF- or LPCGF-permeated implant. On this basis, it was possible to obtain a biologically active implant surface, essential to create intercellular communication and neo-angiogenesis, to facilitate wound healing and tissue regeneration.

Published
2019

42. Encapsulation of Lactobacillus kefiri in alginate microbeads using a double novel aerosol technique

Author

Alessandro Sannino, Luisa Siculella, Egidio De Benedetto, Fabrizio Damiano, Christian Demitri, Maria Stella Cappello, Leonardo Lamanna, Demitri, Christian, Lamanna, Leonardo, DE BENEDETTO, Egidio, Damiano, Fabrizio, Cappello, Maria Stella, Siculella, Luisa, Sannino, Alessandro, Demitri, C., Lamanna, L., De Benedetto, E., Damiano, F., Cappello, M. S., Siculella, L., and Sannino, A.

Subjects
Microsphere, 0301 basic medicine, Novel technique, Materials science, Calcium alginate, Hexuronic Acid, Alginates, Bioengineering, 02 engineering and technology, Microbeads, Microbiology, Biomaterials, 03 medical and health sciences, chemistry.chemical_compound, Glucuronic Acid, medicine, Lactobacillus kefiri Encapsulation Alginate Microbeads, Aerosol, Microbead, Lactobacillus kefiri, Active ingredient, Aerosols, Kefir, Hexuronic Acids, Alginate, 021001 nanoscience & nanotechnology, Microspheres, Lactobacillus, 030104 developmental biology, Fasted state, chemistry, Chemical engineering, Mechanics of Materials, Encapsulation, Swelling, medicine.symptom, 0210 nano-technology
Abstract

Alginate micro beads containing Lactobacillus kefiri (the principal bacteria present in the kefir probiotic drink) were produced by a novel technique based on dual aerosols spaying of alginate based solution and CaCl2 as cross linking agent. Carboxymethylcellulose (CMC) has been also added to the alginate in order to change the physic-chemical properties (viscosity and permeability) of the microbeads. Calcium alginate and CMC are biopolymers that can be used for developing oral drug-delivery systems. These biopolymers have been reported to show a pH-dependent swelling behaviour. Calcium alginate and CMC have also been known to possess an excellent mucoadhesive property. The loaded microbeads have been characterized in terms of morphology, chemical composition and stability in different conditions mimicking the gastric environment. In this study, we demonstrate the feasibility of a continuous fabrication of alginate microbeads in a range of 50–70 μm size, encapsulating L. kefiri as active ingredient. The technique involves the use of a double aerosols of alginate based solution and CaCl2 as crosslinking agent. Moreover, the encapsulation process was proved to be effective and not detrimental to bacteria viability. At the same time, it was verified the protective efficacy of the microcapsules against the gastric environment using both SGF pH 1.2 (fasted state) and pH 2.2 (feed state).

Published
2016

43. Guanosine 5'-diphosphate 3'-diphosphate (ppGpp) as a negative modulator of polynucleotide phosphorylase activity in a 'rare' actinomycete

Author

SICULELLA, Luisa, DAMIANO, FABRIZIO, GNONI, Gabriele Vincenzo, ALIFANO, Pietro, di Summa R, Tredici SM, Alduina R, Siculella, L, Damiano, F, di Summa, R, Tredici, SM, Alduina, R, Gnoni, GV, Alifano, P, Siculella, Luisa, Damiano, Fabrizio, Tredici, Sm, Gnoni, Gabriele Vincenzo, and Alifano, Pietro

Subjects
ppGpp, Polynucleotide phosphorylase, Actinomycete, ppGpp, Actinomycetes
Abstract

With the beginning of the idiophase the highly phosphorylated guanylic nucleotides guanosine 5'-diphosphate 3'-diphosphate (ppGpp) and guanosine 5'-triphosphate 3'-diphosphate (pppGpp), collectively referred to as (p)ppGpp, activate stress survival adaptation programmes and trigger secondary metabolism in actinomycetes. The major target of (p)ppGpp is the RNA polymerase, where it binds altering the enzyme activity. In this study analysis of the polynucleotide phosphorylase (PNPase)-encoding gene pnp mRNA, in Nonomuraea sp. ATCC 39727 wild-type, constitutively stringent and relaxed strains, led us to hypothesize that in actinomycetes (p)ppGpp may modulate gene expression at the level of RNA decay also. This hypothesis was supported by: (i) in vitro evidence that ppGpp, at physiological levels, inhibited both polynucleotide polymerase and phosphorolytic activities of PNPase in Nonomuraea sp., but not in Escherichia coli, (ii) in vivo data showing that the pnp mRNA and the A40926 antibiotic cluster-specific dpgA mRNA were stabilized during the idiophase in the wild-type strain but not in a relaxed mutant and (iii) measurement of chemical decay of pulse-labelled bulk mRNA. The results of biochemical tests suggest competitive inhibition of ppGpp with respect to nucleoside diphosphates in polynucleotide polymerase assays and mixed inhibition with respect to inorganic phosphate when the RNA phosphorolytic activity was determined.

Published
2010

45. Coffee Bioactive N-Methylpyridinium: Unveiling Its Antilipogenic Effects by Targeting De Novo Lipogenesis in Human Hepatocytes.

Author

Giannotti L, Stanca E, Di Chiara Stanca B, Spedicato F, Massaro M, Quarta S, Del Rio D, Mena P, Siculella L, and Damiano F

Subjects
Humans, Hep G2 Cells, Sterol Regulatory Element Binding Protein 1 metabolism, Sterol Regulatory Element Binding Protein 1 genetics, Acetyl-CoA Carboxylase metabolism, Acetyl-CoA Carboxylase genetics, AMP-Activated Protein Kinases metabolism, Lipid Metabolism drug effects, Non-alcoholic Fatty Liver Disease drug therapy, Non-alcoholic Fatty Liver Disease metabolism, NF-E2-Related Factor 2 metabolism, Unfolded Protein Response drug effects, Lipogenesis drug effects, Pyridinium Compounds pharmacology, Hepatocytes drug effects, Hepatocytes metabolism, Coffee chemistry, Endoplasmic Reticulum Stress drug effects
Abstract

Scope: Type 2 diabetes and nonalcoholic fatty liver diseases (NAFLDs) are promoted by insulin resistance (IR), which alters lipid homeostasis in the liver. This study aims to investigate the effect of N-methylpyridinium (NMP), a bioactive alkaloid of coffee brew, on lipid metabolism in hepatocytes., Methods and Results: The effect of NMP in modulating lipid metabolism is evaluated at physiological concentrations in a diabetes cell model represented by HepG2 cells cultured in a high-glucose medium. Hyperglycemia triggers lipid droplet accumulation in cells and enhances the lipogenic gene expression, which is transactivated by sterol regulatory element binding protein-1 (SREBP-1). Lipid droplet accumulation alters the redox status and endoplasmic reticulum (ER) stress, leading to the activation of the unfolded protein response and antioxidative pathways by X-Box Binding Protein 1(XBP-1)/eukaryotic Initiation Factor 2 alpha (eIF2α) Protein Kinase RNA-Like ER Kinase and nuclear factor erythroid 2-related factor 2 (NRF2), respectively. NMP induces the phosphorylation of AMP-dependent protein kinase (AMPK) and acetyl-CoA carboxylase α (ACACA), and improves the redox status and ER homeostasis, essential steps to reduce lipogenesis and lipid droplet accumulation., Conclusion: These results suggest that NMP may be beneficial for the management of T2D and NAFLD by ameliorating the cell oxidative and ER homeostasis and lipid metabolism., (© 2024 The Author(s). Molecular Nutrition & Food Research published by Wiley‐VCH GmbH.)

Published
2024
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46. In silico evidence that substitution of glycine for valine (p.G8V) in a common variant of TMPRSS2 isoform 1 increases accessibility to an endocytic signal: Implication for SARS-cov-2 entry into host cells and susceptibility to COVID-19.

Author

Calcagnile M, Damiano F, Lobreglio G, Siculella L, Bozzetti MP, Forgez P, Malgoyre A, Libert N, Bucci C, Alifano M, and Alifano P

Subjects
Humans, Male, Female, Genetic Predisposition to Disease, Amino Acid Substitution, Protein Isoforms genetics, Protein Isoforms metabolism, Valine genetics, Valine metabolism, Computer Simulation, Middle Aged, Aged, Endocytosis, Mutation, Missense, Gene Frequency, Polymorphism, Single Nucleotide, COVID-19 genetics, COVID-19 virology, Serine Endopeptidases genetics, Serine Endopeptidases metabolism, SARS-CoV-2 genetics, SARS-CoV-2 metabolism, Glycine genetics, Glycine metabolism, Virus Internalization
Abstract

The TMPRSS2 protease plays a key role in the entry of the SARS-CoV-2 into cells. The TMPRSS2 gene is highly polymorphic in humans, and some polymorphisms may affect the susceptibility to COVID-19 or disease severity. rs75603675 (c.23G > T) is a missense variant that causes the replacement of glycine with valine at position 8 (p.G8V) in the TMPRSS2 isoform 1. According to GnomAD v4.0.0 database, the allele frequency of the rs75603675 on a global scale is 38.10 %, and range from 0.92 % in East Asian to 40.77 % in non-Finnish European (NFE) population. We analyzed the occurrence of the rs75603675 in two cohorts of patients, the first with severe/critical COVID-19 enrolled in a French hospital (42 patients), and the second with predominantly asymptomatic/pauci-symptomatic/mild COVID-19 enrolled in an Italian hospital (69 patients). We found that the TMPRSS2-c.23T minor allele frequency was similar in the two cohorts, 46.43 % and 46.38 %, respectively, and higher than the frequency in the NFE population (40.77 %). Chi-square test provided significant results (p < 0.05) when the genotype data (TMPRSS2-c.23T/c.23T homozygotes + TMPRSS2-c.23G/c.23T heterozygotes vs. TMPRSS2-c.23G/c.23G homozygotes) of the two patient groups were pooled and compared to the expected data for the NFE population, suggesting a possible pathogenetic mechanism of the p.G8V substitution. We explored the possible effects of the p.G8V substitution and found that the N-terminal region of the TMPRSS2 isoform 1 contains a signal for clathrin/AP-2-dependent endocytosis. In silico analysis predicted that the p.G8V substitution may increase the accessibility to the endocytic signal, which could help SARS-CoV-2 enter cells., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Declarations of interest: none., (Copyright © 2024 Elsevier B.V. and Société Française de Biochimie et Biologie Moléculaire (SFBBM). All rights reserved.)

Published
2024
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47. EPA and DHA Enhance CACT Promoter Activity by GABP/NRF2.

Author

Stanca E, Spedicato F, Giudetti AM, Giannotti L, Di Chiara Stanca B, Damiano F, and Siculella L

Subjects
Animals, Rats, Cell Line, Humans, PPAR alpha metabolism, PPAR alpha genetics, Gene Expression Regulation drug effects, Promoter Regions, Genetic, Eicosapentaenoic Acid pharmacology, Docosahexaenoic Acids pharmacology, GA-Binding Protein Transcription Factor metabolism, GA-Binding Protein Transcription Factor genetics, Carnitine Acyltransferases metabolism, Carnitine Acyltransferases genetics, NF-E2-Related Factor 2 metabolism, NF-E2-Related Factor 2 genetics
Abstract

Carnitine-acylcarnitine translocase (CACT) is a nuclear-encoded mitochondrial carrier that catalyzes the transfer of long-chain fatty acids across the inner mitochondrial membrane for β-oxidation. In this study, we conducted a structural and functional characterization of the CACT promoter to investigate the molecular mechanism underlying the transcriptional regulation of the CACT gene by n-3 PUFA, EPA and DHA. In hepatic BRL3A cells, EPA and DHA stimulate CACT mRNA and protein expression. Deletion promoter analysis using a luciferase reporter gene assay identified a n-3 PUFA response region extending from -202 to -29 bp. This region did not contain a response element for PPARα, a well-known PUFA-responsive nuclear receptor. Instead, bioinformatic analysis revealed two highly conserved GABP responsive elements within this region. Overexpression of GABPα and GABPβ subunits, but not PPARα, increased CACT promoter activity, more remarkably upon treatment with EPA and DHA. ChIP assays showed that n3-PUFA enhanced the binding of GABPα to the -202/-29 bp sequence. Furthermore, both EPA and DHA induced nuclear accumulation of GABPα. In conclusion, our findings indicate that the upregulation of CACT by n3-PUFA in hepatic cells is independent from PPARα and could be mediated by GABP activation.

Published
2024
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48. Exploring the Neuroprotective Potential of N-Methylpyridinium against LPS-Induced Neuroinflammation: Insights from Molecular Mechanisms.

Author

Giannotti L, Di Chiara Stanca B, Spedicato F, Stanca E, Damiano F, Quarta S, Massaro M, and Siculella L

Subjects
Humans, Cell Line, Tumor, Cytokines metabolism, Lipopolysaccharides, Neuroprotective Agents pharmacology, NF-kappa B metabolism, Neuroinflammatory Diseases drug therapy, Neuroinflammatory Diseases metabolism, Neuroinflammatory Diseases chemically induced, Signal Transduction drug effects, Pyridinium Compounds pharmacology
Abstract

N-methylpyridinium (NMP) is produced through the pyrolysis of trigonelline during the coffee bean roasting process. Preliminary studies suggest that NMP may have health benefits, thanks to its antioxidant properties. Based on this background, the aim of this study was to evaluate whether NMP could have a protective effect against LPS-induced neuroinflammation in human glioblastoma cells (U87MG). With this aim, U87MG cells were pre-treated with NMP (0.5 μM) for 1 h and then exposed to LPS (1 μg/mL) for 24 h. Our findings show that NMP attenuates LPS-induced neuroinflammation by reducing the expression of pro-inflammatory cytokines, such as IL-1β, TNF-α and IL-6, through the inhibition of the NF-κB signaling pathway, which is critical in regulating inflammatory responses. NMP is able to suppress the activation of the NF-κB signaling pathway, suggesting its potential in preventing neuroinflammatory conditions. These outcomes support the notion that regular consumption of NMP, possibly through coffee consumption, may offer protection against neuroinflammatory states implicated in neurological disorders.

Published
2024
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49. Recent Advances in Functionalized Electrospun Membranes for Periodontal Regeneration.

Author

Epicoco L, Pellegrino R, Madaghiele M, Friuli M, Giannotti L, Di Chiara Stanca B, Palermo A, Siculella L, Savkovic V, Demitri C, and Nitti P

Abstract

Periodontitis is a global, multifaceted, chronic inflammatory disease caused by bacterial microorganisms and an exaggerated host immune response that not only leads to the destruction of the periodontal apparatus but may also aggravate or promote the development of other systemic diseases. The periodontium is composed of four different tissues (alveolar bone, cementum, gingiva, and periodontal ligament) and various non-surgical and surgical therapies have been used to restore its normal function. However, due to the etiology of the disease and the heterogeneous nature of the periodontium components, complete regeneration is still a challenge. In this context, guided tissue/bone regeneration strategies in the field of tissue engineering and regenerative medicine have gained more and more interest, having as a goal the complete restoration of the periodontium and its functions. In particular, the use of electrospun nanofibrous scaffolds has emerged as an effective strategy to achieve this goal due to their ability to mimic the extracellular matrix and simultaneously exert antimicrobial, anti-inflammatory and regenerative activities. This review provides an overview of periodontal regeneration using electrospun membranes, highlighting the use of these nanofibrous scaffolds as delivery systems for bioactive molecules and drugs and their functionalization to promote periodontal regeneration.

Published
2023
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50. Exploring the significance of epicardial adipose tissue in aortic valve stenosis and left ventricular remodeling: Unveiling novel therapeutic and prognostic markers of disease.

Author

Quarta S, Santarpino G, Carluccio MA, Calabriso N, Maffia M, Siculella L, Damiano F, Madonna R, and Massaro M

Subjects
Humans, Ventricular Remodeling, Prognosis, Adipose Tissue, Aortic Valve Stenosis diagnostic imaging, Atherosclerosis
Abstract

Aortic stenosis (AS) is a dynamic degenerative process that shares many pathophysiological features with atherogenesis, from initial proinflammatory calcification and focal thickening of the valve leaflets to obstruction of left ventricular outflow due to superimposed of severe calcification and immobilization of the valve leaflets. As the prevalence increases with age, AS is expected to become one of the most common heart diseases worldwide. In both obese and nonobese patients, persistent thickening of epicardial adipose tissue (EAT) is associated with a shift in its normal metabolic functions toward a dysmetabolic and proatherogenic phenotype that may impair the physiology of adjacent coronary arteries and promote the occurrence of coronary atherosclerosis. In tight analogy with atherosclerosis, recent clinical evidence indicates that EAT may also exert a deleterious role in promoting AS and contributing to myocardial dysfunction, leading to increased health risk for elderly patients with AS and an economic burden on the health care system. This review discusses the clinical and pathologic evidence for the association between EAT and AS and concomitant left ventricular hypertrophy, and provides new insights for the future direction of AS diagnosis and treatment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published
2023
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