Photoacoustic-immune therapy with a multi-purpose black phosphorus-based nanoparticle

Zeng, Fanchu; Qin, Huan; Li, Liming; Chang, Haocai; Chen, Qun; Wu, Linghua; Zhang, Le; Wu, Zhujun; Xing, Da

doi:10.1007/s12274-020-3028-x

Cited by 22 publications

(16 citation statements)

References 73 publications

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“…Therefore, it is critical to develop localized and precise immunotherapeutic strategies against cancer. Multifunctional nanotheranostic systems can proactively accumulate at target sites and deliver drugs in a controlled manner, thereby achieving high therapeutic efficacy with minimal side effects. − In particular, photoacoustic (PA) imaging-guided precision therapy has attracted extensive attention due to its excellent tissue penetration and high temporal and spatial resolution. − For example, nanocarriers loaded with contrast agents can achieve precise optical image-guided photocontrolled drug release, which significantly reduces the off-target and side effects of drugs. ,, However, this approach has not been attempted in ICB therapy due to the thermal instability of PD1/PDL1 antibodies. Recently, aptamers of immune checkpoints have been screened, allowing PA imaging-guided photothermal immunotherapy. − However, traditional nanocarriers have poor histocompatibility and stability and may bind to serum proteins and immune cell components in the blood, resulting in their elimination by the immune system.…”

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confidence: 99%

Tumor-Homing and Immune-Reprogramming Cellular Nanovesicles for Photoacoustic Imaging-Guided Phototriggered Precise Chemoimmunotherapy

Fan

Wang

et al. 2022

ACS Nano

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Many studies have focused on developing effective therapeutic strategies to selectively destroy primary tumors, eliminate metastatic lesions, and prevent tumor recurrence with minimal side effects on normal tissues. In this work, we synthesized engineered cellular nanovesicles (ECNVs) with tumor-homing and immune-reprogramming functions for photoacoustic (PA) imaging-guided precision chemoimmunotherapy. M1-macrophage-derived cellular nanovesicles (CNVs) were loaded with gold nanorods (GNRs), gemcitabine (GEM), CpG ODN, and PD-L1 aptamer. The good histocompatibility and tumor-homing effect of CNVs improved drug retention in the bloodstream and led to their enrichment in tumor tissues. Furthermore, the photothermal ability of GNRs enabled PA imaging-guided drug release. GEM induced tumor immunogenic cell death (ICD), and CpG ODN promoted an immune response to the antigens released by ICD, leading to long-term specific antitumor immunity. In addition, the PD-L1 aptamer relieved the inhibitory effect of the PD1/PD-L1 checkpoint on CD8+ T-cells and augmented the immunotherapeutic effect. The synergistic innate and adaptive immune responses enhanced the antitumor effect of ECNVs. In summary, this nanoplatform integrates local targeted photothermal therapy with extensive progressive chemotherapy and uses ICD to reshape the immune microenvironment for tumor ablation.

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confidence: 99%

Tumor-Homing and Immune-Reprogramming Cellular Nanovesicles for Photoacoustic Imaging-Guided Phototriggered Precise Chemoimmunotherapy

Fan

Wang

et al. 2022

ACS Nano

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“…The contribution of the PAI system combined treatment to treat cancer goes far beyond the strategies mentioned above. In recent years, scientists have aroused great interest in PA system-guided immunotherapy due to the rise of tumor immunotherapy. , By labeling specific enzymes or biomarkers with PA contrast agents, the autoimmune function of tumor sites can be activated to promote the body’s immune cells to attack tumor cells. Up to now, the process of immunotherapy at a single cell level can be real-time monitored via PA labeling of bioactive substances, which were widely reported to obtain satisfactory treatment.…”

Section: Principles Of Pai and Applications For Cancer Theragnosticsmentioning

confidence: 99%

Current Strategies of Photoacoustic Imaging Assisted Cancer Theragnostics toward Clinical Studies

Fan

et al. 2022

ACS Photonics

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Photoacoustic imaging (PAI) has made great advances in availing the benefits for theragnostics with noninvasive, nonionizing and high-resolution features. However, PAI effectively visualizing tumors for the clinical practice is still lacking investigation. This review describes various integrated diagnostic strategies involving PAI for joint multimodel imaging combined with innovative contrast agents in five common cancer types. PAI combined multifunctional contrast agents in a second near-infrared (NIR-II, 1000–1700 nm) biological window, providing unprecedented sensitivity and translatability. We summarize the state-of-art status of PAI in the diagnosis of different types of cancers from ex vivo samples to in vivo humans. The detailed elucidation of the up-to-date advanced material science in NIR-II and versatile PAI-guided theragnostics is reviewed toward preclinical studies. Future perspective directions to establish all-in-one strategies to boost the clinical translation are highlighted.

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“…Different from PDT with limited ROS yield and PTT with overheat, BP-based PAT shockwave generation can achieve precise attack on the tumor site. In Zeng's study, they prepared multifunctional BP nanoparticles targeting mitochondria, and shockwave generated by the nanoparticles under the action of PAT produced the precise destruction to mitochondria and induced effective ICD effects [ 85 ]. Therefore, it can be concluded that PAT may bring a new round of innovation in precision cancer treatment.…”

Section: Bp-based Therapeutic Strategiesmentioning

confidence: 99%

“…BP-based PIT combined with CTLA4 inhibitors could significantly inhibit Tregs-mediated immunosuppression with an increase of the ratios of CD8+ CTLs/Tregs and CD4+ Teff/Tregs. Moreover, combination therapy also elicited a memory CTL immune response that prevented recurrence and metastasis of tumors [ 85 ].…”

Section: The Potential Of Bp In Immunotherapymentioning

confidence: 99%

Potential of Black Phosphorus in Immune‐Based Therapeutic Strategies

Dong

Wang

Liu

et al. 2022

Bioinorganic Chemistry and Applications

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Black phosphorus (BP) consists of phosphorus atoms, an essential element of bone and nucleic acid, which covalently bonds to three adjacent phosphorus atoms to form a puckered bilayer structure. With its anisotropy, band gap, biodegradability, and biocompatibility properties, BP is considered promising for cancer therapy. For example, BP under irradiation can convert near-infrared (NIR) light into heat and reactive oxygen species (ROS) to damage cancer cells, called photothermal therapy (PTT) and photodynamic therapy (PDT). Compared with PTT and PDT, the novel techniques of sonodynamic therapy (SDT) and photoacoustic therapy (PAT) exhibit amplified ROS generation and precise photoacoustic-shockwaves to enhance anticancer effect when BP receives ultrasound or NIR irradiation. Based on the prospective phototherapy, BP with irradiation can cause a “double-kill” to tumor cells, involving tumor-structure damage induced by heat, ROS, and shockwaves and a subsequent anticancer immune response induced by in situ vaccines construction in tumor site, which is referred to as photoimmunotherapy (PIT). In conclusion, BP shows promise in natural antitumor biological activity, biological imaging, drug delivery, PTT/PDT/SDT/PAT/PIT, nanovaccines, nanoadjuvants, and combination immunotherapy regimens.

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Photoacoustic-immune therapy with a multi-purpose black phosphorus-based nanoparticle

Cited by 22 publications

References 73 publications

Tumor-Homing and Immune-Reprogramming Cellular Nanovesicles for Photoacoustic Imaging-Guided Phototriggered Precise Chemoimmunotherapy

Tumor-Homing and Immune-Reprogramming Cellular Nanovesicles for Photoacoustic Imaging-Guided Phototriggered Precise Chemoimmunotherapy

Current Strategies of Photoacoustic Imaging Assisted Cancer Theragnostics toward Clinical Studies

Potential of Black Phosphorus in Immune‐Based Therapeutic Strategies

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