Exosomes are nanometer-sized membrane vesicles invaginating from multivesicular bodies and secreted from different cell types. They represent an "in vitro" discovery, but vesicles with the hallmarks of exosomes are present in vivo in germinal centers and biological fluids. Their protein and lipid composition is unique and could account for their expanding functions such as eradication of obsolete proteins, antigen presentation, or "Trojan horses" for viruses or prions. The potential of dendritic cell-derived exosomes (Dex) as cell-free cancer vaccines is addressed in this review. Lessons learned from the pioneering clinical trials allowed reassessment of the priming capacities of Dex in preclinical models, optimizing clinical protocols, and delineating novel, biological features of Dex in cancer patients.
For isolation of mouse mtDNA-less ( 0 ) cell lines, we searched for various antimitochondrial drugs that were expected to decrease the mtDNA content and found that treatment with ditercalinium, an antitumor bis-intercalating agent, was extremely effective for completely excluding mtDNA in all the mouse cell lines we tested. The resulting 0 mouse cells were successfully used for trapping the mtDNA of living nerve cells into dividing cultured cells by fusion of the 0 cells with mouse brain synaptosomes, which represent synaptic endings isolated from nerve cells. With neuronal mtDNA obtained, all of the cybrid clones restored mitochondrial translation activity similarly regardless of whether the mtDNA was derived from young or aged mice, thus at least suggesting that defects in mitochondrial genomes are not involved in the age-associated mitochondrial dysfunction observed in the brain of aged mice. Furthermore, we could trap a very small amount of a common 5823-base pair deletion mutant mtDNA (⌬mtDNA 5823 ) that was detectable by polymerase chain reaction in the cybrid clones. As the amount of mutant mtDNA with large scale deletions was expected to increase during prolonged cultivation of the cybrids, these cells should be available for establishment of mice containing the deletion mutant mtDNA.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.