Boyu Meng scite author profile

This work investigates X-PACT (X-ray Psoralen Activated Cancer Therapy): a new approach for the treatment of solid cancer. X-PACT utilizes psoralen, a potent anti-cancer therapeutic with current application to proliferative disease and extracorporeal photopheresis (ECP) of cutaneous T Cell Lymphoma. An immunogenic role for light-activated psoralen has been reported, contributing to long-term clinical responses. Psoralen therapies have to-date been limited to superficial or extracorporeal scenarios due to the requirement for psoralen activation by UVA light, which has limited penetration in tissue. X-PACT solves this challenge by activating psoralen with UV light emitted from novel non-tethered phosphors (co-incubated with psoralen) that absorb x-rays and re-radiate (phosphoresce) at UV wavelengths. The efficacy of X-PACT was evaluated in both in-vitro and in-vivo settings. In-vitro studies utilized breast (4T1), glioma (CT2A) and sarcoma (KP-B) cell lines. Cells were exposed to X-PACT treatments where the concentrations of drug (psoralen and phosphor) and radiation parameters (energy, dose, and dose rate) were varied. Efficacy was evaluated primarily using flow cell cytometry in combination with complimentary assays, and the in-vivo mouse study. In an in-vitro study, we show that X-PACT induces significant tumor cell apoptosis and cytotoxicity, unlike psoralen or phosphor alone (p<0.0001). We also show that apoptosis increases as doses of phosphor, psoralen, or radiation increase. Finally, in an in-vivo pilot study of BALBc mice with syngeneic 4T1 tumors, we show that the rate of tumor growth is slower with X-PACT than with saline or AMT + X-ray (p<0.0001). Overall these studies demonstrate a potential therapeutic effect for X-PACT, and provide a foundation and rationale for future studies. In summary, X-PACT represents a novel treatment approach in which well-tolerated low doses of x-ray radiation are delivered to a specific tumor site to generate UVA light which in-turn unleashes both short- and potentially long-term antitumor activity of photo-active therapeutics like psoralen.

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Self-micelle formation and the incorporation of lipid in the formulation affect the intestinal absorption of Panax notoginseng

Xiong

Guo

Huang

et al. 2008

International Journal of Pharmaceutics

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Enhancing Radiation Therapy Through Cherenkov Light-Activated Phototherapy

Yoon

Tsvankin

Shrock

et al. 2018

International Journal of Radiation Oncology*Biology*Physics

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The Use of Lipid-Based Formulations to Increase the Oral Bioavailability of Panax Notoginseng Saponins Following a Single Oral Gavage to Rats

Xiong

Guo

Huang

et al. 2008

Drug Development and Industrial Pharmacy

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Active absorption of ginsenoside Rg1 in vitro and in vivo: the role of sodium-dependent glucose co-transporter 1

Xiong

Sun

Guo

et al. 2009

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Boyu Meng

X-Ray Psoralen Activated Cancer Therapy (X-PACT)

Self-micelle formation and the incorporation of lipid in the formulation affect the intestinal absorption of Panax notoginseng

Enhancing Radiation Therapy Through Cherenkov Light-Activated Phototherapy

The Use of Lipid-Based Formulations to Increase the Oral Bioavailability of Panax Notoginseng Saponins Following a Single Oral Gavage to Rats

Active absorption of ginsenoside Rg1 in vitro and in vivo: the role of sodium-dependent glucose co-transporter 1

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