The natural behavior of mesenchymal stem cells (MSCs) and their exosomes in targeting tumors is a promising approach for curative therapy. Human tumor tropic mesenchymal stem cells (MSCs) isolated from various tissues and MSCs engineered to express the yeast cytosine deaminase::uracil phosphoribosyl transferase suicide fusion gene (yCD::UPRT-MSCs) released exosomes in conditional medium (CM). Exosomes from all tissue specific yCD::UPRT-MSCs contained mRNA of the suicide gene in the exosome's cargo. When the CM was applied to tumor cells, the exosomes were internalized by recipient tumor cells and in the presence of the prodrug 5-fluorocytosine (5-FC) effectively triggered dose-dependent tumor cell death by endocytosed exosomes via an intracellular conversion of the prodrug 5-FC to 5-fluorouracil. Exosomes were found to be responsible for the tumor inhibitory activity. The presence of microRNAs in exosomes produced from naive MSCs and from suicide gene transduced MSCs did not differ significantly. MicroRNAs from yCD::UPRT-MSCs were not associated with therapeutic effect. MSC suicide gene exosomes represent a new class of tumor cell targeting drug acting intracellular with curative potential.
Diabetic retinopathy (DR) is a multifactorial disease with complex pathophysiology. It is the main cause of blindness among the people in productive age. The purpose of this literature review is to highlight recent achievements in the genetics of diabetic retinopathy with particular focus on candidate gene studies. We summarized most of the available published data about candidate genes for diabetic retinopathy with the goal to identify main genetic aspects. We conclude that genetic studies reported contradictory findings and no genetic variants meet criteria of a diagnostic marker, or significantly elucidate the root of DR development. Based on these findings it is important to continue with the research in the field of DR genetics, mainly due to the fact that currently new possibilities and approaches associated with utilization of next-generation sequencing are available.
Recently, we reported about exosomes possessing messenger RNA (mRNA) of suicide gene secreted from mesenchymal stem/stromal cells (MSCs) engineered to express the suicide gene-fused yeast cytosine deaminase::uracil phospho-ribosyltransferase (yCD::UPRT). The yCD::UPRT-MSC exosomes are internalized by tumor cells and intracellularly convert prodrug 5-fluorocytosine (5-FC) to cytotoxic drug 5-fluorouracil (5-FU). Human tumor cells with the potential to metastasize release exosomes involved in the creation of a premetastatic niche at the predicted organs. We found that cancer cells stably transduced with yCD::UPRT gene by retrovirus infection released exosomes acting similarly like yCD::UPRT-MSC exosomes. Different types of tumor cells were transduced with the yCD::UPRT gene. The homogenous cell population of yCD::UPRT-transduced tumor cells expressed the yCD::UPRT suicide gene and secreted continuously exosomes with suicide gene mRNA in their cargo. All tumor cell suicide gene exosomes upon internalization into the recipient tumor cells induced the cell death by intracellular conversion of 5-FC to 5-FU and to 5-FUMP in a dosedependent manner. Most of tumor cell-derived suicide gene exosomes were tumor tropic, in 5-FC presence they killed tumor cells but did not inhibit the growth of human skin fibroblast as well as DP-MSCs. Tumor cell-derived suicide gene exosomes home to their cells of origin and hold an exciting potential to become innovative specific therapy for tumors and potentially for metastases. K E Y W O R D S gene-directed enzyme prodrug therapy, intracellular therapy, suicide gene, tumor suicide gene exosomes 1 | INTRODUCTION Further progress in cancer therapy of aggressive tumors and metastases requires an innovative therapeutic modality. The main problem in an improvement of cancer patient survival lays in difficulty of a localized therapeutic attack and distant tumor cell metastasis. Tumor progression is enhanced by circulating tumor cells that disseminated away from the primary tumor and form metastases. The cells retain their original homing character and they possess the ability to re-home to the site of their origin. 1 In addition, standard chemoand radiotherapies do not attack slowly dividing or dormant cancer stem cells. 2,3 All cells in the body release extracellular vesicles
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