Therapeutic potential of small interfering RNAs/micro interfering RNA in hepatocellular carcinoma

Hepatocellular carcinoma (HCC) is the predominant form of primary liver cancer and represents the third leading cause of cancer-related death worldwide. Current available therapeutic approaches are poorly effective, especially for the advanced forms of the disease. In the last year, short double stranded RNA molecules termed small interfering RNAs (siRNAs) and micro interfering RNAs (miRNA), emerged as interesting molecules with potential therapeutic value for HCC. The practical use of these molecules is however limited by the identification of optimal molecular targets and especially by the lack of effective and targeted HCC delivery systems. Here we focus our discussion on the most recent advances in the identification of siRNAs/ miRNAs molecular targets and on the development of suitable siRNA/miRNAs delivery systems

Medicine, Biology and Mathematics

Although mathematics finds large application in physical sciences, its use in the medical and biological field is less usual. Nevertheless, mathematical models can help in understanding many medical and biological phenomena and they can be a powerful tool in the designing process of many technological devices connected to the above mentioned phenomena. Of course, fundamental pre-requisite for building up a reliable mathematical model is the deep cooperation of different competences such as those of medical doctors, biologists, pharmacists and engineers. This paper deals with four different examples of mathematical models developed by our group and dealing with restenosis, enzyme action on two dimensional DNA brushes, oral delivery of drug in amorphous or nano-crystalline form and tumour cell behaviour

Zebrafish as an Experimental Model for Human Disease

Belonging to the family of Cyprinidae, the zebrafish is a small freshwater fish present in the rivers of Bangladesh, Northern India and Southern Nepal [...]

Aptamer targeting of the elongation factor 1A impairs hepatocarcinoma cells viability and potentiates bortezomib and idarubicin effects

8noThe high morbidity and mortality of hepatocellular carcinoma (HCC) is mostly due to the limited efficacy of the available therapeutic approaches. Here we explore the anti-HCC potential of an aptamer targeting the elongation factor 1A (eEF1A), a protein implicated in the promotion of HCC. As delivery methods, we have compared the effectiveness of cationic liposome and cholesterol-mediated approaches. A75 nucleotide long aptamer containing GT repetition (GT75) was tested in three HCC cell lines, HepG2, HuH7 and JHH6. When delivered by liposomes, GT75 was able to effectively reducing HCC cells viability in a dose and time dependent fashion. Particular sensitive were JHH6 where increased apoptosis with no effects on cell cycle were observed. GT75 effect was likely due to the interference with eEF1A activity as neither the mRNA nor the protein levels were significantly affected. Notably, cholesterol-mediated delivery of GT75 abrogated its efficacy due to cellular mis-localization as proven by fluorescence and confocal microscopic analysis. Finally, liposome-mediated delivery of GT75 improved the therapeutic index of the anticancer drugs bortezomib and idarubicin. In conclusion, liposome but not cholesterol-mediated delivery of GT75 resulted in an effective delivery of GT75, causing the impairment of the vitality of a panel of HCC derived cells.partially_openopenScaggiante, Bruna; Farra, Rossella; Dapas, Barbara; Baj, Gabriele; Pozzato, Gabriele; Grassi, Mario; Zanconati, Fabrizio; Grassi, GabrieleScaggiante, Bruna; Farra, Rossella; Dapas, Barbara; Baj, Gabriele; Pozzato, Gabriele; Grassi, Mario; Zanconati, Fabrizio; Grassi, Gabriel

Fermionic Sen's Mechanism for Self-Dual Super Maxwell theory

In several elementary particle scenarios, self-dual fields emerge as fundamental degrees of freedom. Some examples are the $D=2$ chiral boson, $D=10$ Type IIB supergravity and $D=6$ chiral tensor multiplet theory. For those models, a fully satisfactory variational principle was missing until the works of Ashoke Sen. We generalize this technique to the fermionic sector of self-dual super Maxwell gauge theory in $D=4$ Euclidean spacetime both in the component formalism and in the superspace. For the latter, we use the geometric tools of rheonomy together with integral forms. We show the equivalence between the two formulations by choosing a different integral form defined by means of a Picture Changing Operator. That leads to a meaningful action functional for the variational equations. In addition, we couple the model to a non-dynamical gravitino in order to extend the analysis slightly beyond the rigid case. A full-fledged self-dual supergravity analysis will be presented elsewhere.Comment: 15 pages, no figure

GT75 aptamer against eukaryotic elongation factor 1A as potential anticancer drug for castrate-resistant prostate cancer (CRPC).

Prostate cancer diagnosis is increasing, being the second most frequently cancer in men worldwide. The treatment of castrate-resistant prostate cancer is often unsuccessfully and new therapeutic interventions are searching for. Nucleic acid aptamers targeting eEF1A proteins are emerging molecular tools for the control of cancer growth. We found that an aptamer named GT75 was able to bind to eEF1A proteins of human prostate cancer cell lines and to significantly and specifically reduce their growth with respect to the control oligomer CT75. The highest anti-proliferation effect was found in the androgen-independent PC-3 cells. Interestingly, GT75 was able to specifically inhibit the migration of PC-3 cells but not that of the nontumorigenic PZHPV-7 cells. The overall results suggest that the GT75 aptamer targeting eEF1A proteins is a promising molecular drug to develop for the control of the castrate-resistant prostate cance

Dissolution of an ensemble of differently shaped poly-dispersed drug particles undergoing solubility reduction: mathematical modelling

The aim of this theoretical paper is to develop a mathematical model for describing the dissolution process, in a finite liquid environment, of an ensemble of poly-dispersed drug particles, in form of sphere, cylinder and parallelepiped that can undergo solubility reduction due to phase transition induced by dissolution. The main result of this work consists in its simplicity as, whatever the particular particles size distribution, only two ordinary differential equations are needed to describe the dissolution process. This, in turn, reflects in a very powerful and agile theoretical tool that can be easily implemented in electronic sheets, a widespread tool among the research community. Another model advantage lies on the possibility of determining its parameters by means of common independent techniques thus enabling the evaluation of the importance of solid wettability on the dissolution process.</p

Dissecting the role of the elongation factor 1A isoforms in hepatocellular carcinoma cells by liposome-mediated delivery of siRNAs

Eukaryotic elongation factor 1A (eEF1A), a protein involved in protein synthesis, has two major isoforms, eEF1A1 and eEF1A2. Despite the evidences of their involvement in hepatocellular carcinoma (HCC), the quantitative contribution of each of the two isoforms to the disease is unknown. We depleted the two isoforms by means of siRNAs and studied the effects in three different HCC cell lines. Particular care was dedicated to select siRNAs able to target each of the two isoform without affecting the other one. This is not a trivial aspect due to the high sequence homology between eEF1A1 and eEF1A2. The selected siRNAs can specifically deplete either eEF1A1 or eEF1A2. This, in turn, results in an impairment of cell vitality, growth and arrest in the G1/G0 phase of the cell cycle. Notably, these effects are quantitatively superior following eEF1A1 than eEF1A2 depletion. Moreover, functional tests revealed that the G1/G0 block induced by eEF1A1 depletion depends on the down-regulation of the transcription factor E2F1, a known player in HCC. In conclusion, our data indicate that the independent targeting of the two eEF1A isoforms is effective in reducing HCC cell growth and that eEF1A1 depletion may result in a more evident effect

Recent advances in smart biotechnology: Hydrogels and nanocarriers for tailored bioactive molecules depot

Over the past ten years, the global biopharmaceutical market has remarkably grown, with ten over the top twenty worldwide high performance medical treatment sales being biologics. Thus, biotech R&D (research and development) sector is becoming a key leading branch, with expanding revenues. Biotechnology offers considerable advantages compared to traditional therapeutic approaches, such as reducing side effects, specific treatments, higher patient compliance and therefore more effective treatments leading to lower healthcare costs. Within this sector, smart nanotechnology and colloidal self-assembling systems represent pivotal tools able to modulate the delivery of therapeutics. A comprehensive understanding of the processes involved in the self assembly of the colloidal structures discussed therein is essential for the development of relevant biomedical applications. In this review we report the most promising and best performing platforms for specific classes of bioactive molecules and related target, spanning from siRNAs, gene/plasmids, proteins/growth factors, small synthetic therapeutics and bioimaging probes.Istituto Italiano di Tecnologia (IIT)COST Action [CA 15107]People Program (Marie Curie Actions) of the European Union's Seventh Framework Program under REA [606713 BIBAFOODS]Portuguese Foundation for Science and Technology (FCT) [PTDC/AGR-TEC/4814/2014, IF/01005/2014]Fundacao para a Ciencia e Tecnologia [SFRH/BPD/99982/2014]Danish National Research Foundation [DNRF 122]Villum Foundation [9301]Italian Ministry of Instruction, University and Research (MIUR), PRIN [20109PLMH2]"Fondazione Beneficentia Stiftung" VaduzFondo di Ateneo FRAFRAinfo:eu-repo/semantics/publishedVersio