Shubhankar Nath scite author profile

A major objective in developing new treatment approaches for lethal tumors is to reduce toxicity to normal tissues while maintaining therapeutic efficacy. Photodynamic therapy (PDT) provides a mechanistically distinct approach to treat tumors without the systemic toxicity of chemotherapy drugs. PDT involves the light‐based activation of a small molecule, a photosensitizer (PS), to generate reactive molecular species (RMS) that are toxic to target tissue. Depending on the PS localization, various cellular and subcellular components can be targeted, causing selective photodamage. It has been shown that targeted lysosomal photodamage followed by, or simultaneous with, mitochondrial photodamage using two different PS results in a considerable enhancement in PDT efficacy. Here, two liposomal formulations of benzoporphyrin derivative (BPD): (1) Visudyne (clinically approved) and (2) an in‐house formulation entrapping a lipid conjugate of BPD are used in combination with direct PS localization to mitochondria, endoplasmic reticulum and lysosomes, enabling simultaneous photodamage to all three organelles using a single wavelength of light. Building on findings by our group, and others, this study demonstrates, for the first time in a 3D model for ovarian cancer, that BPD‐mediated photodestruction of lysosomes and mitochondria/ER significantly enhances PDT efficacy at lower light doses than treatment with either PS formulation alone.

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The Course of Immune Stimulation by Photodynamic Therapy: Bridging Fundamentals of Photochemically Induced Immunogenic Cell Death to the Enrichment of T‐Cell Repertoire

Nath

Obaid

Hasan

2019

Photochem & Photobiology

105

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Photodynamic therapy (PDT) is a potentially immunogenic and FDA‐approved antitumor treatment modality that utilizes the spatiotemporal combination of a photosensitizer, light and oftentimes oxygen, to generate therapeutic cytotoxic molecules. Certain photosensitizers under specific conditions, including ones in clinical practice, have been shown to elicit an immune response following photoillumination. When localized within tumor tissue, photogenerated cytotoxic molecules can lead to immunogenic cell death (ICD) of tumor cells, which release damage‐associated molecular patterns and tumor‐specific antigens. Subsequently, the T‐lymphocyte (T cell)–mediated adaptive immune system can become activated. Activated T cells then disseminate into systemic circulation and can eliminate primary and metastatic tumors. In this review, we will detail the multistage cascade of events following PDT of solid tumors that ultimately lead to the activation of an antitumor immune response. More specifically, we connect the fundamentals of photochemically induced ICD with a proposition on potential mechanisms for PDT enhancement of the adaptive antitumor response. We postulate a hypothesis that during the course of the immune stimulation process, PDT also enriches the T‐cell repertoire with tumor‐reactive activated T cells, diversifying their tumor‐specific targets and eliciting a more expansive and rigorous antitumor response. The implications of such a process are likely to impact the outcomes of rational combinations with immune checkpoint blockade, warranting investigations into T‐cell diversity as a previously understudied and potentially transformative paradigm in antitumor photodynamic immunotherapy.

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Dynein Separately Partners with NDE1 and Dynactin To Orchestrate T Cell Focused Secretion

Nath

Christian

Tan

et al. 2016

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Helper and cytotoxic T cells accomplish focused secretion through the clustering of vesicles around the MTOC and translocation of the MTOC to the target contact site. Here, using Jurkat cells and OT-I T cell receptor (TcR) transgenic primary murine CTLs, we show that the dynein-binding proteins NDE1 and dynactin (as represented by p150Glued) form mutually exclusive complexes with dynein, exhibit non-overlapping distributions in target-stimulated cells, and mediate different transport events. When Jurkat cells expressing a dominant negative form of NDE1 (NDE1-EGFP fusion) were activated by SEE-coated Raji cells, NDE1 and dynein failed to accumulate at the immunological synapse (IS) and MTOC translocation was inhibited. Knockdown of NDE1 in Jurkat cells or primary mouse CTLs also inhibited MTOC translocation and CTL-mediated killing. In contrast to NDE1, knockdown of p150Glued, which depleted the alternative dynein-dynactin complex, resulted in impaired accumulation of CTLA-4 and granzyme-B containing intracellular vesicles at the IS, while MTOC translocation was not affected. Depletion of p150Glued in CTLs also inhibited CTL-mediated lysis. We conclude that the NDE1/Lis1 and dynactin complexes separately mediate two key components of T cell focused secretion, namely translocation of the MTOC and lytic granules to the IS, respectively.

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Shubhankar Nath

A Combination of Visudyne and a Lipid‐anchored Liposomal Formulation of Benzoporphyrin Derivative Enhances Photodynamic Therapy Efficacy in a 3D Model for Ovarian Cancer

The Course of Immune Stimulation by Photodynamic Therapy: Bridging Fundamentals of Photochemically Induced Immunogenic Cell Death to the Enrichment of T‐Cell Repertoire

Dynein Separately Partners with NDE1 and Dynactin To Orchestrate T Cell Focused Secretion

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