2024
DOI: 10.1021/acsnano.3c10173
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Apoptosis and Paraptosis Induced by Disulfiram-Loaded Ca2+/Cu2+ Dual-Ions Nano Trap for Breast Cancer Treatment

Zhenhu Guo,
Xiaohan Gao,
Jingsong Lu
et al.

Abstract: Regarded as one of the hallmarks of tumorigenesis and tumor progression, the evasion of apoptotic cell death would also account for treatment resistance or failure during cancer therapy. In this study, a Ca 2+ /Cu 2+ dual-ion "nano trap" to effectively avoid cell apoptosis evasion by synchronously inducing paraptosis together with apoptosis was successfully designed and fabricated for breast cancer treatment. In brief, disulfiram (DSF)-loaded amorphous calcium carbonate nanoparticles (NPs) were fabricated via … Show more

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Cited by 14 publications
(6 citation statements)
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“…designed to counteract the main neoplastic hallmark features of BC by sustaining proliferative pathways [31,32], evading growth suppressors/evasion of anti-growth signaling [12], resisting programmed cell death [33][34][35][36][37][38][39][40][41][42], inducing angiogenesis (neovascularization) [43][44][45][46], activating invasion and metastasis [47][48][49], preventing genomic instability, mutation, mitosis/cell cycle deregulation [50], evading/avoiding immune destruction [51] and deregulating autophagy [52,53].…”
Section: Nano-"magic Bullets" In Bc Theranosticsmentioning
confidence: 99%
See 3 more Smart Citations
“…designed to counteract the main neoplastic hallmark features of BC by sustaining proliferative pathways [31,32], evading growth suppressors/evasion of anti-growth signaling [12], resisting programmed cell death [33][34][35][36][37][38][39][40][41][42], inducing angiogenesis (neovascularization) [43][44][45][46], activating invasion and metastasis [47][48][49], preventing genomic instability, mutation, mitosis/cell cycle deregulation [50], evading/avoiding immune destruction [51] and deregulating autophagy [52,53].…”
Section: Nano-"magic Bullets" In Bc Theranosticsmentioning
confidence: 99%
“…In 1907, Paul Ehrlich, whose work was related to the development of chemotherapy and specific targeted treatment concepts [54], introduced the term "magic bullet" as a drug specifically targeting a particular pathogen, without affecting the normal cells of the host, anticipating the era of the development of site-specific therapies for cancer treatment [55,56]. Today, the use of nanomedicine and nano(bio)technology in the BC field involves handling modern and challenging variants of Ehrlich s "magic bullet", which can be considered as nano-"magic bullets" that are able to perform multiple and targeted functions and tasks, such as different types of nanorobots/nanobots/nanovehicles/nanomachines/nanomotors/nanodevices or nanosubmarines/nanosubs [21,57], nanotrains [58], nanostars [59], enzymatic, magnetic or DNAzyme based nanoflowers/nanoclusters [60][61][62], urchin-head/hollow tail nanorobots with sharp nanospikes [12], nanospheres [63], nanocubes [64], nanorods [65], nanoneedles [66], nanotubes [67], worm-like nanocrystal micelles [68], nanoshells [43], nanosponges and nanokillers [47], nanoknives [69], nanoballons [70], nanozymes [71], nano-snowflakes [25], nanobubbles [72,73], nanoemulsions [74], nanobodies [75], nanobiosensors [76], nanopores [77], nanocages [33], nanotraps [34],or nanogenerators [78] (Figure 1). Undoubtedly, the use of nanoparticulate-based platforms has provide more and more advantages to the BC field including great biocompatibility and biodistibution, multifunctionality, the ability to overcome biological barriers and bioaccumulate in multiple tumor sites, even in the nucleus and specific organel...…”
Section: Nano-"magic Bullets" In Bc Theranosticsmentioning
confidence: 99%
See 2 more Smart Citations
“…Tumoral apoptosis or programmed cell death has been considered an essential homeostatic mechanism that maintains cell generation with cell death. However, apoptotic resistance, like defects in the apoptotic pathway, has become an urgent clinical problem, which greatly limits the therapeutic efficacy because conventional chemotherapy and irradiation work primarily by inducing apoptosis. Based on this, much attention has been focused on the explorations against apoptotic resistance. , However, the resulting apoptotic defects in tumors are various and complex, including overexpression of antiapoptotic proteins, mutations of proapoptotic proteins, loss of caspase, or overexpression of drug transporters. Therefore, it always remains a great challenge to reverse the resistance of apoptosis via a simple one-pathway intervention. Luckily, necroptosis, another form of regulated cell death, has become a probable and intrinsic pathway of tumors against apoptotic resistance. …”
Section: Introductionmentioning
confidence: 99%