Validating methods for testing natural molecules on molecular pathways of interest in silico and in vitro

Differentially expressed genes can serve as drug targets and are used to predict drug response and disease progression. In silico drug analysis based on the expression of these genetic biomarkers allows the detection of putative therapeutic agents, which could be used to reverse a pathological gene expression signature. Indeed, a set of bioinformatics tools can increase the accuracy of drug discovery, helping in biomarker identification. Once a drug target is identified, in vitro cell line models of disease are used to evaluate and validate the therapeutic potential of putative drugs and novel natural molecules. This study describes the development of efficacious PCR primers that can be used to identify gene expression of specific genetic pathways, which can lead to the identification of natural molecules as therapeutic agents in specific molecular pathways. For this study, genes involved in health conditions and processes were considered. In particular, the expression of genes involved in obesity, xenobiotics metabolism, endocannabinoid pathway, leukotriene B4 metabolism and signaling, inflammation, endocytosis, hypoxia, lifespan, and neurotrophins were evaluated. Exploiting the expression of specific genes in different cell lines can be useful in in vitro to evaluate the therapeutic effects of small natural molecules

Natural compounds as inhibitors of SARS-CoV-2 endocytosis: A promising approach against COVID-19

© Mattioli 1885.Background and aim: The recent COVID-19 pandemic caused by SARS-CoV-2 affected more than six million people and caused thousands of deaths. The lack of effective drugs or vaccines against SARS-CoV-2 further worsened the situation. This review is focused on the identification of molecules that may inhibit viral entry into host cells by endocytosis. Methods: We performed the literature search for these natural compounds in the articles indexed in PubMed. Results: Natural products against viral infections have been gaining importance in recent years. Specific natural compounds like phytosterols, polyphenols, flavonoids, citrus, galangal, curcuma and hydroxytyrosol are being analyzed to understand whether they could inhibit SARS-CoV-2. Conclusions: We reviewed natural compounds with potential antiviral activity against SARS-CoV-2 that could be used as a treatment for COVID-19. (www.actabiomedica.it)

Bacteriophages in food supplements obtained from natural sources

© Mattioli 1885.Human gastrointestinal tract is colonized by bacteria that constitute the interstinal microbiota. Changes in the microbiota may lead to several chronic disorders. Bacteriophages are viruses that specifically target bacteria. Several food components contain bacteriophages and probiotics. Bacteriophages have a great specificity for harmful bacteria, helping the growth of good bacteria. Because of their qualities, bacteriophages are considered beneficial component of probiotics that target the pathogenic bacteria and support the natural human microbiota. (www.actabiomedica.it)

Comparison between American and European legislation in the therapeutical and alimentary bacteriophage usage

© Mattioli 1885.Bacteriophages, though discovered a century ago, still lag behind in the race of antimicrobials due to scarce information about their biology, pharmacology, safety and suitability as therapeutic agents. Although they possess several capabilities of practical utility in medicine, they are still unable to satisfy the regulatory standards set by the regulatory authorities in both United States (US) and European Union (EU). Bacteriophages and their products (lysins) are considered as drugs, therefore they should follow the same route of the chemical drugs in order to achieve regulatory approvals for commercial production and application. However, lack of definitive guidelines and regulations has rendered bacteriophages less attractive to pharmaceutical companies and funding agencies, making it difficult for clinicians and researchers to set up wide scale clinical trials in order to prove efficacy, safety and stability of bacteriophages and their products. In this review, we will discuss the current regulations for developing phages and phage-based products for therapeutic purposes in the US and EU. (www.actabiomedica.it)

Bacteriophages presence in nature and their role in the natural selection of bacterial populations

© Mattioli 1885.Phages are the obligate parasite of bacteria and have complex interactions with their hosts. Phages can live in, modify, and shape bacterial communities by bringing about changes in their abundance, diversity, physiology, and virulence. In addition, phages mediate lateral gene transfer, modify host metabolism and reallocate bacterially-derived biochemical compounds through cell lysis, thus playing an important role in ecosystem. Phages coexist and coevolve with bacteria and have developed several antidefense mechanisms in response to bacterial defense strategies against them. Phages owe their existence to their bacterial hosts, therefore they bring about alterations in their host genomes by transferring resistance genes and genes encoding toxins in order to improve the fitness of the hosts. Application of phages in biotechnology, environment, agriculture and medicines demands a deep insight into the myriad of phage-bacteria interactions. However, to understand their complex interactions, we need to know how unique phages are to their bacterial hosts and how they exert a selective pressure on the microbial communities in nature. Consequently, the present review focuses on phage biology with respect to natural selection of bacterial populations. (www.actabiomedica.it)