Haider Al-Janabi scite author profile

The survival strategies of infectious organisms have inspired many therapeutics over the years. Indeed the advent of oncolytic viruses (OVs) exploits the uncontrolled replication of cancer cells for production of their progeny resulting in a cancer‐targeting treatment that leaves healthy cells unharmed. Their success against inaccessible tumors however, is highly variable due to inadequate tumor targeting following systemic administration. Coassembling herpes simplex virus (HSV1716) with biocompatible magnetic nanoparticles derived from magnetotactic bacteria enables tumor targeting from circulation with magnetic guidance, protects the virus against neutralizing antibodies and thereby enhances viral replication within tumors. This approach additionally enhances the intratumoral recruitment of activated immune cells, promotes antitumor immunity and immune cell death, thereby inducing tumor shrinkage and increasing survival in a syngeneic mouse model of breast cancer by 50%. Exploiting the properties of such a nanocarrier, rather than tropism of the virus, for active tumor targeting offers an exciting, novel approach for enhancing the bioavailability and treatment efficacy of tumor immunotherapies for disseminated neoplasms.

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Magnetic-silk/polyethyleneimine core-shell nanoparticles for targeted gene delivery into human breast cancer cells

Song

Gregory

Al-Janabi

et al. 2019

International Journal of Pharmaceutics

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Macrophages Mediate the Antitumor Effects of the Oncolytic Virus HSV1716 in Mammary Tumors

Kwan

Winder

Atkinson

et al. 2021

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Oncolytic viruses (OV) have been shown to activate the anti-tumor functions of specific immune cells like T cells. Here, we show OV can also reprogram TAMs to a less immunosuppressive phenotype. Syngeneic, immunocompetent mouse models of primary breast cancer were established using PyMT-TS1, 4T1 and E0771 cell lines and a metastatic model of breast cancer was established using the 4T1 cell line. Tumor growth and overall survival was assessed following intravenous administration of the OV, HSV1716 (a modified herpes simplex virus). Infiltration and function of various immune effector cells was assessed by NanoString, flow cytometry of dispersed tumors and immunofluorescence analysis of tumor sections. HSV1716 administration led to marked tumor shrinkage in primary mammary tumors and a decrease in metastases. This was associated with a significant increase in the recruitment/activation of cytotoxic T cells, a reduction in the presence of regulatory T cells and the reprograming of TAMs towards a pro-inflammatory, less immunosuppressive phenotype. These findings were supported by in vitro data demonstrating that human monocyte-derived macrophages (MDMs) host HSV1716 replication, and that this led to immunogenic macrophage lysis. These events were dependent on macrophage expression of proliferating cell nuclear antigen (PCNA). Finally, the anti-tumor effect of OV was markedly diminished when TAMs were depleted using clodronate liposomes. Together, our results show that TAMs play an essential role in support of the tumoricidal effect of the OV, HSV1716they both host viral replication via a novel, PCNA-dependent mechanism and are reprogramed to express a less immunosuppressive phenotype.

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Macrophage Regulation of the Development of Castration-Resistant Prostate Cancer

Al-Janabi

Lewis

2021

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Androgen deprivation therapy (ADT) is the front-line treatment for early and metastatic prostate cancer, and the development of tumor resistance to it has major clinical consequences. Cancer cells start to proliferate and tumors begin to regrow, requiring the administration of more generic anticancer treatments like surgery, radiotherapy, and/or chemotherapy. Tumor-associated macrophages are known to drive tumor resistance to a number of anti-cancer therapies. El-Kenawi and colleagues now demonstrate a novel mechanism underpinning their ability to do so in prostate tumors during ADT. This involves the accumulation of cholesterol by macrophages in tumors and its transfer to cancer cells, where it acts as a precursor for androgen biosynthesis and results in the activation of androgen receptors. See related article by El-Kenawi and colleagues, p. 5477

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Breast cancer immunotherapy using magnetised oncolytic viruses

Al-Janabi

Conner

Taher

et al. 2018

European Journal of Cancer

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Haider Al-Janabi

Nanobugs as Drugs: Bacterial Derived Nanomagnets Enhance Tumor Targeting and Oncolytic Activity of HSV‐1 Virus

Magnetic-silk/polyethyleneimine core-shell nanoparticles for targeted gene delivery into human breast cancer cells

Macrophages Mediate the Antitumor Effects of the Oncolytic Virus HSV1716 in Mammary Tumors

Macrophage Regulation of the Development of Castration-Resistant Prostate Cancer

Breast cancer immunotherapy using magnetised oncolytic viruses

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