Newborn microglia rapidly replenish the whole brain after selective elimination of most microglia (>99%) in adult mice. Previous studies reported that repopulated microglia were largely derived from microglial progenitor cells expressing nestin in the brain. However, the origin of these repopulated microglia has been hotly debated. In this study, we investigated the origin of repopulated microglia by a series of fate-mapping approaches. We first excluded the blood origin of repopulated microglia via parabiosis. With different transgenic mouse lines, we then demonstrated that all repopulated microglia were derived from the proliferation of the few surviving microglia (<1%). Despite a transient pattern of nestin expression in newly forming microglia, none of repopulated microglia were derived from nestin-positive non-microglial cells. In summary, we conclude that repopulated microglia are solely derived from residual microglia rather than de novo progenitors, suggesting the absence of microglial progenitor cells in the adult brain.
Doxorubicin (Dox) was conjugated onto a biodegradable block copolymer methoxy-poly(ethylene glycol)-block-poly(lactide-co-2,2-dihydroxymethylpropylene carbonate (mPEG-b-P(LA-co-DHP)) via a carbamate linkage and an acid-labile hydrazone linkage, respectively. Mutifunctional mixed micelles consisting of Dox-containing copolymer mPEG-b-P(LA-co-DHP/Dox) and folic acid-containing copolymer mPEG-b-P(LA-co-DHP/FA) were successfully prepared by coassembling the two component copolymers. The mixed micelles had well-defined core shell structure and their diameters were in the range of 70-100 nm. Both Dox-conjugates (via carbamate or hydrazone linkage) showed pH-dependent release behavior, and the micelles with hydrazone linkage showed more pH-sensitivity compared to those with carbamate linkage. The in vitro cell uptake experiment by CLSM and flow cytometry showed preferential internalization of FA-containing micelles by human ovarian cancer cell line SKOV-3 than that without FA. Flow cytometric analysis was conducted to reveal the enhanced cell apoptosis caused by the FA-containing micelles. These results suggested that these micelles containing both chemotherapeutic and targeting ligand could be a promising nanocarrier for targeting the drugs to cancer cells and releasing the drug molecules inside the cancer cells.
Elucidating the origin of microglia is crucial for understanding their functions and homeostasis. Previous study has indicated that Nestin-positive progenitor cells differentiate into microglia and replenish the brain after depleting most brain microglia. Microglia have also shown the capacity to repopulate the retina after eliminating all retinal microglia. However, the origin(s) of repopulated retinal microglia is/are unknown. In this study, we aim to investigate the origins of repopulated microglia in the retina. Interestingly, we find that repopulated retinal microglia are not derived from Nestin-positive progenitor cells. Instead, they have two origins: the center-emerging microglia are derived from residual microglia in the optic nerve and the periphery-emerging microglia are derived from macrophages in the ciliary body/iris. Therefore, we have for the first time identified the extra-retinal origins of microglia in the adult mammalian retina by using a model of microglial repopulation, which may shed light on the target exploration of therapeutic interventions for retinal degenerative disorders.
Most of the current nanoparticle-based therapeutics worldwide failing in clinical trials face three major challenges: (i) lack of an optimum drug delivery platform with precise composition, (ii) lack of a method of directly monitoring the fate of a specific drug rather than using any other labelling molecules as a compromise, and (iii) lack of reliable cancer models with high fidelity for drug screen and evaluation. Here, starting from a PP2A inhibitor demethylcantharidin (DMC) and cisplatin, the design of a dual sensitive dual drug backboned shattering polymer (DDBSP) with exact composition at a fixed DMC/Pt ratio for precise nanomedicine is shown. DDBSP self-assembled nanoparticle (DD-NP) can be triggered intracellularly to break down in a chain-shattering manner to release the dual drugs payload. Moreover, DD-NP with extremely high Pt heavy metal content in the polymer chain can directly track the drug itself via Pt-based drug-mediated computer tomography and ICP-MS both in vitro and in vivo. Finally, DD-NP is used to eradicate the tumor burden on a high-fidelity patient-derived lung cancer model for the first time.
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