Michael Brasino scite author profile

DNA-mediated assembly of core-satellite structures composed of Zr(IV)-based porphyrinic metal-organic framework (MOF) and NaYF ,Yb,Er upconverting nanoparticles (UCNPs) for photodynamic therapy (PDT) is reported. MOF NPs generate singlet oxygen ( O ) upon photoirradiation with visible light without the need for additional small molecule, diffusional photosensitizers such as porphyrins. Using DNA as a templating agent, well-defined MOF-UCNP clusters are produced where UCNPs are spatially organized around a centrally located MOF NP. Under NIR irradiation, visible light emitted from the UCNPs is absorbed by the core MOF NP to produce O at significantly greater amounts than what can be produced from simply mixing UCNPs and MOF NPs. The MOF-UCNP core-satellite superstructures also induce strong cell cytotoxicity against cancer cells, which are further enhanced by attaching epidermal growth factor receptor targeting affibodies to the PDT clusters, highlighting their promise as theranostic photodynamic agents.

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TiO₂-Capped Gold Nanorods for Plasmon-Enhanced Production of Reactive Oxygen Species and Photothermal Delivery of Chemotherapeutic Agents

Mao

Brasino

et al. 2018

ACS Appl. Mater. Interfaces

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Near infrared (NIR)-absorbing noble metal nanostructures are being extensively studied as theranostic agents, in particular for photoacoustic imaging and photothermal therapy. Because of the electric field enhancement at the tips of anisotropic metal nanostructures, positioning photoactive species at these sites can lead to increased energy absorption. Herein, we show the site-specific placement of NIR-active photosensitizers at the ends of gold nanorods (AuNRs) by growing porous TiO caps. The surface plasmon resonance of the AuNRs was carefully tuned to overlap with the exciton absorption of indocyanine green (ICG), a NIR photosensitizer with low quantum yields and poor photostability. In conjugating high amounts of ICG to the TiO caps, increased amounts of singlet oxygen (O) were generated as compared to when ICG was attached to sidewalls of the AuNRs. Because the AuNRs also cause local increases in temperature upon NIR excitation, DNA strands were next attached to the AuNRs sidewalls and loaded with doxorubicin (DOX). We found that the synergistic effect of increased O and photothermal-induced drug delivery led to significant improvements in tumor cell killing. This work demonstrates that with careful design over hybrid nanostructure synthesis, higher levels of tumor therapy may be achieved.

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Anti-EGFR Affibodies with Site-Specific Photo-Cross-Linker Incorporation Show Both Directed Target-Specific Photoconjugation and Increased Retention in Tumors

et al. 2018

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A significant challenge for solid tumor treatment is ensuring that a sufficient concentration of therapeutic agent is delivered to the tumor site at doses that can be tolerated by the patient. Biomolecular targeting can bias accumulation in tumors by taking advantage of specific interactions with receptors overexpressed on cancerous cells. However, while antibody-based immunoconjugates show high binding to specific cells, their low dissociation constants ( K) and large Stokes radii hinder their ability to penetrate deep into tumor tissue, leading to incomplete cell killing and tumor recurrence. To address this, we demonstrate the design and production of a photo-cross-linkable affibody that can form a covalent bond to epidermal growth factor receptor (EGFR) under near UV irradiation. Twelve cysteine mutations were created of an EGFR affibody and conjugated with maleimide-benzophenone. Of these only one exhibited photoconjugation to EGFR, as demonstrated by SDS-PAGE and Western blot. Next this modified affibody was shown to not only bind EGFR expressing cells but also show enhanced retention in a 3D tumor spheroid model, with minimal loss up to 24 h as compared to either unmodified EGFR-binding affibodies or nonbinding, photo-cross-linkable affibodies. Finally, in order to show utility of photo-cross-linking at clinically relevant wavelengths, upconverting nanoparticles (UCNPs) were synthesized that could convert 980 nm light to UV and blue light. In the presence of UCNPs, both direct photoconjugation to EGFR and enhanced retention in tumor spheroids could be obtained using near-infrared illumination. Thus, the photoactive affibodies developed here may be utilized as a platform technology for engineering new therapy conjugates that can penetrate deep into tumor tissue and be retained long enough for effective tumor therapy.

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Serial and Parallel Si, Ge, and SiGe Direct-Write with Scanning Probes and Conducting Stamps

Vasko

Kapetanovic²,

Talla³

et al. 2011

Nano Lett.

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Precise materials integration in nanostructures is fundamental for future electronic and photonic devices. We demonstrate Si, Ge, and SiGe nanostructure direct-write with deterministic size, geometry, and placement control. The biased probe of an atomic force microscope (AFM) reacts diphenylsilane or diphenylgermane to direct-write carbon-free Si, Ge, and SiGe nano and heterostructures. Parallel direct-write is available on large areas by substituting the AFM probe with conducting microstructured stamps. This facile strategy can be easily expanded to a broad variety of semiconductor materials through precursor selection.

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Creating highly amplified enzyme-linked immunosorbent assay signals from genetically engineered bacteriophage

Brasino

Lee

Jennifer

2015

Analytical Biochemistry

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Michael Brasino

DNA‐Assembled Core‐Satellite Upconverting‐Metal–Organic Framework Nanoparticle Superstructures for Efficient Photodynamic Therapy

TiO₂-Capped Gold Nanorods for Plasmon-Enhanced Production of Reactive Oxygen Species and Photothermal Delivery of Chemotherapeutic Agents

Anti-EGFR Affibodies with Site-Specific Photo-Cross-Linker Incorporation Show Both Directed Target-Specific Photoconjugation and Increased Retention in Tumors

Serial and Parallel Si, Ge, and SiGe Direct-Write with Scanning Probes and Conducting Stamps

Creating highly amplified enzyme-linked immunosorbent assay signals from genetically engineered bacteriophage

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Michael Brasino

DNA‐Assembled Core‐Satellite Upconverting‐Metal–Organic Framework Nanoparticle Superstructures for Efficient Photodynamic Therapy

TiO2-Capped Gold Nanorods for Plasmon-Enhanced Production of Reactive Oxygen Species and Photothermal Delivery of Chemotherapeutic Agents

Anti-EGFR Affibodies with Site-Specific Photo-Cross-Linker Incorporation Show Both Directed Target-Specific Photoconjugation and Increased Retention in Tumors

Serial and Parallel Si, Ge, and SiGe Direct-Write with Scanning Probes and Conducting Stamps

Creating highly amplified enzyme-linked immunosorbent assay signals from genetically engineered bacteriophage

Contact Info

Product

Resources

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TiO₂-Capped Gold Nanorods for Plasmon-Enhanced Production of Reactive Oxygen Species and Photothermal Delivery of Chemotherapeutic Agents