Objectives:Philadelphia chromosome-positive B-cell acute lymphoblastic leukemia and Philadelphia-like B-cell acute lymphoblastic leukemia(Ph+/Ph-like ALL)constitute the majority of relapsed/refractory B-ALL(R/R B-ALL)...Objectives:Philadelphia chromosome-positive B-cell acute lymphoblastic leukemia and Philadelphia-like B-cell acute lymphoblastic leukemia(Ph+/Ph-like ALL)constitute the majority of relapsed/refractory B-ALL(R/R B-ALL)cases,highlighting an urgent need to discover new therapeutic targets.This study aims to elucidate the mechanisms underlying poor prognosis in Ph+/Ph-like ALL through transcriptome sequencing and functional cytological assays,with the goal of informing new clinical treatment strategies.Results:Transcriptomic analysis of Ph+/Ph-like ALL patients revealed that low expression of P2X Purinoceptor 1(P2RX1)was associated with unfavorable outcomes.Specifically,patients with poor prognosis and low P2RX1 expression exhibited downregulation of genes involved in energy and calcium metabolism pathways,along with upregulation of genes governing key cellular processes such as cell proliferation(e.g.,MYC),cell cycle progression(e.g.,CCND2),and apoptosis inhibition(e.g.,DASP6).Cellular experiments demonstrated that SUP-B15 cells overexpressing P2RX1 displayed elevated intracellular levels of ATP,calcium,and glucose,together with enhanced glycolytic capacity,compared to empty vector controls.Treatment of SUP-B15 cells with dexamethasone(Dex),Imatinib,or their combination significantly suppressed proliferation and promoted apoptosis,which was accompanied by increases in intracellular ATP,calcium,and glucose.Moreover,exogenous ATP administration(a P2RX1 agonist)enhanced apoptosis and inhibited proliferation in control cells.Conversely,treatment with NF449(a P2RX1 inhibitor)increased proliferation in both P2RX1-overexpressing and control SUP-B15 cells.Conclusion:Our findings indicate that P2RX1 may exert this function through modulating energy metabolism and calcium homeostasis,resulting in elevated intracellular calcium levels.Sustained elevation of calcium promotes apoptosis,whereas exogenous ATP activates P2RX1,enhances calcium influx,and attenuates the suppression of apoptosis associated with P2RX1 underexpression,ultimately correlating with improved treatment response.展开更多
In this study, a p H-sensitive micelle self-assembled from poly(L-histidine) based triblock copolymers of poly(ethylene glycol)–poly(D,L-lactide)–poly(L-histidine)(mPEG-PLA-PHis) was prepared and used as the intrace...In this study, a p H-sensitive micelle self-assembled from poly(L-histidine) based triblock copolymers of poly(ethylene glycol)–poly(D,L-lactide)–poly(L-histidine)(mPEG-PLA-PHis) was prepared and used as the intracellular doxorubicin(Dox) delivery for cancer chemotherapy. Dox was loaded into the micelles by thin-film hydration method and a Box–Behnken design for three factors at three levels was used to optimize the preparations. The optimized mPEG-PLA-Phis/Dox micelles exhibited good encapsulation efficiency of 91.12%,a mean diameter of 45 nm and narrow size distribution with polydispersity index of 0.256.In vitro drug release studies demonstrated that Dox was released from the micelles in a p Hdependent manner. Furthermore, the cellular evaluation of Dox loaded micelles displayed that the micelles possessed high antitumor activity in vitro with an IC50 of 35.30 μg/ml against MCF-7/ADR cells. The confocal microscopy and flow cytometry experiments indicated that m PEG-PLA-Phis micelles mediated efficient cytoplasmic delivery of Dox with the aid of poly(Lhistidine) mediated endosomal escape. In addition, blank m PEG-PLA-Phis micelles were shown to be nontoxic to MCF-7/ADR cells even at a high concentration of 200 μg/ml. The pHsensitive mPEG-PLA-PHis micelles have been demonstrated to be a promising nanosystem for the intracellular delivery of Dox for MDR reversal.展开更多
基金supported by Guangdong Province Basic and Applied Basic Research Fund Project(2023A1515220104)Open Fund of Key Laboratory of Hepatoaplenic Surgery,Ministry of Education(Award Number:GPKF202407).
文摘Objectives:Philadelphia chromosome-positive B-cell acute lymphoblastic leukemia and Philadelphia-like B-cell acute lymphoblastic leukemia(Ph+/Ph-like ALL)constitute the majority of relapsed/refractory B-ALL(R/R B-ALL)cases,highlighting an urgent need to discover new therapeutic targets.This study aims to elucidate the mechanisms underlying poor prognosis in Ph+/Ph-like ALL through transcriptome sequencing and functional cytological assays,with the goal of informing new clinical treatment strategies.Results:Transcriptomic analysis of Ph+/Ph-like ALL patients revealed that low expression of P2X Purinoceptor 1(P2RX1)was associated with unfavorable outcomes.Specifically,patients with poor prognosis and low P2RX1 expression exhibited downregulation of genes involved in energy and calcium metabolism pathways,along with upregulation of genes governing key cellular processes such as cell proliferation(e.g.,MYC),cell cycle progression(e.g.,CCND2),and apoptosis inhibition(e.g.,DASP6).Cellular experiments demonstrated that SUP-B15 cells overexpressing P2RX1 displayed elevated intracellular levels of ATP,calcium,and glucose,together with enhanced glycolytic capacity,compared to empty vector controls.Treatment of SUP-B15 cells with dexamethasone(Dex),Imatinib,or their combination significantly suppressed proliferation and promoted apoptosis,which was accompanied by increases in intracellular ATP,calcium,and glucose.Moreover,exogenous ATP administration(a P2RX1 agonist)enhanced apoptosis and inhibited proliferation in control cells.Conversely,treatment with NF449(a P2RX1 inhibitor)increased proliferation in both P2RX1-overexpressing and control SUP-B15 cells.Conclusion:Our findings indicate that P2RX1 may exert this function through modulating energy metabolism and calcium homeostasis,resulting in elevated intracellular calcium levels.Sustained elevation of calcium promotes apoptosis,whereas exogenous ATP activates P2RX1,enhances calcium influx,and attenuates the suppression of apoptosis associated with P2RX1 underexpression,ultimately correlating with improved treatment response.
文摘In this study, a p H-sensitive micelle self-assembled from poly(L-histidine) based triblock copolymers of poly(ethylene glycol)–poly(D,L-lactide)–poly(L-histidine)(mPEG-PLA-PHis) was prepared and used as the intracellular doxorubicin(Dox) delivery for cancer chemotherapy. Dox was loaded into the micelles by thin-film hydration method and a Box–Behnken design for three factors at three levels was used to optimize the preparations. The optimized mPEG-PLA-Phis/Dox micelles exhibited good encapsulation efficiency of 91.12%,a mean diameter of 45 nm and narrow size distribution with polydispersity index of 0.256.In vitro drug release studies demonstrated that Dox was released from the micelles in a p Hdependent manner. Furthermore, the cellular evaluation of Dox loaded micelles displayed that the micelles possessed high antitumor activity in vitro with an IC50 of 35.30 μg/ml against MCF-7/ADR cells. The confocal microscopy and flow cytometry experiments indicated that m PEG-PLA-Phis micelles mediated efficient cytoplasmic delivery of Dox with the aid of poly(Lhistidine) mediated endosomal escape. In addition, blank m PEG-PLA-Phis micelles were shown to be nontoxic to MCF-7/ADR cells even at a high concentration of 200 μg/ml. The pHsensitive mPEG-PLA-PHis micelles have been demonstrated to be a promising nanosystem for the intracellular delivery of Dox for MDR reversal.
