Abstract
The dysfunction of the tumor suppressor gene TP53 has been associated with the pathogenesis of the majority of the cases of cancer reported to date, leading the cell to acquire different features known as the cancer hallmarks. In normal situations, the protein p53 protects the cells against tumorigenesis. By detecting metabolic stress or DNA damage in response to stress, p53 can lead the cell to senescence, autophagy, cell cycle arrest, DNA repair, and apoptosis. Thus, in the case of p53 mutations, it is reasonable to assume that the reestablishment of its function, may restrain the proliferation of cancer cells. The concept of cancer gene therapy can be based on this assumption, and suitable biotechnological approaches must be explored to assure the preparation of gene-based biopharmaceuticals. Although numerous procedures have already been established to purify supercoiled plasmid DNA (sc pDNA), the therapeutic application is highly dependent on the biopharmaceutical’s activity, which can be affected by the chromatographic conditions used. Thus, the present work aims at comparing quality and in vitro activity of the supercoiled (sc) isoform of the p53 encoding plasmid purified by three different amino acids-based chromatographic strategies, involving histidine–agarose, arginine–macroporous, and histidine–monolith supports. The B-DNA topology was maintained in all purified pDNA samples, but their bioactivity, related to the induction of protein p53 expression and apoptosis in cancer cells, was higher with arginine–macroporous support, followed by histidine–monolith and histidine–agarose. Despite the purity degree of 92% and recovery yield of 43% obtained with arginine–macroporous, the sc pDNA sample led to a higher expression level of the therapeutic p53 protein (58%) and, consequently, induced a slightly higher apoptotic effect (27%) compared with sc pDNA samples obtained with histidine–monolithic support (26%) and histidine–agarose support (24%). This behavior can be related to the mild chromatographic conditions used with arginine–macroporous support, which includes the use of low salt concentrations, at neutral pH and lower temperatures, when compared to the high ionic strength of ammonium sulfate and acidic pH used with histidine-based supports. These results can contribute to field of biopharmaceutical preparation, emphasizing the need to control several experimental conditions while adapting and selecting the methodologies that enable the use of milder conditions as this can have a significant impact on pDNA stability and biological activity.
Highlights
Up to date more than 200 types of cancer have been described and characterized, and in all these cases, changes in the genome are involved, proving the complexity of this disease [1,2]
The clarification procedure performed after cell lysis enables the preparation of an extract enriched in supercoiled plasmid DNA (sc pDNA) and simultaneously promotes the reduction of the impurities content, it is not possible to fully eliminate species such as RNA, gDNA, endotoxins, or host proteins
Affinity chromatography using amino acids as ligands has been extensively used by our research group to obtain a final pDNA sample fulfilling the requirements of regulatory agencies [22,23,24]
Summary
Up to date more than 200 types of cancer have been described and characterized, and in all these cases, changes in the genome are involved, proving the complexity of this disease [1,2]. When some mutations occur and are accumulated, the tumorigenesis process can start, leading the cell to gain different characteristics, namely: self-sufficiency in growth signals, insensitivity to antigrowth signals, sustained angiogenesis, capacity of invasion and metastasis, limitless replicative potential, and evasion of programmed cell death (apoptosis) [2]. The DNA mutations can occur by abiotic factors, such as environment exposure, and could happen due to biotic factors, such as DNA replication errors or virus infection [3]. Cells have tumor suppressor genes that are responsible for the inhibition of cell growth and/or induction of cellular apoptosis, which prevent cancer development. Amongst all the tumor suppressor genes, one of the most important/relevant is p53. Different research studies have demonstrated that it is mutated or deleted in more than 50% of all human cancers [4,5]
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