Use of Salmonella Bacteria in Cancer Therapy: Direct, Drug Delivery and Combination Approaches

Badie, Fereshteh; Ghandali, Maryam; Tabatabaei, Seyed Alireza; Safari, Mahmood; Kazemi, Ahmad; Mahjoubin‐Tehran, Maryam; Morshedi, Korosh; Jalili, Amin; Tajiknia, Vida; Hamblin, Michael R.; Mirzaei, Hamed

doi:10.3389/fonc.2021.624759

Cited by 33 publications

(25 citation statements)

References 138 publications

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“…Compared with monoclonal antibodies and small molecule inhibitors, the use of siRNA to treat tumors requires an effective delivery system. In addition to viral vectors, recent studies have shown that a variety of bacteria can be used as carriers, among which attenuated Salmonella is the most widely studied and applied ( 49 , 50 ). As a vehicle, attenuated Salmonella can carry small hairpin RNA (shRNA ) to a variety of tumor sites, including lung cancer, breast cancer, gastric cancer and prostate cancer.…”

Section: Discussionmentioning

confidence: 99%

PD-1-siRNA Delivered by Attenuated Salmonella Enhances the Antitumor Effect of Chloroquine in Colon Cancer

Jia

et al. 2021

Front. Immunol.

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The widespread appearance of drug tolerance and the low efficiency of single treatment have severely affected the survival time of the patients with colorectal cancer. Exploring new treatment options and combined treatment strategies have become the key to improving the prognosis. The combination of immunotherapy and chemotherapy have shown good clinical expectations. Here, we studied the cooperative effects of chloroquine, an anti-malarial drug that is now widely used in anti-tumor research, and RNA interference (RNAi) targeting the immune checkpoint molecule Programmed Death-1 (PD-1) delivered with attenuated Salmonella. Our results show that chloroquine can not only significantly inhibit the survival of colon cancer cells and induce apoptosis, but also effectively inhibit cell invasion and migration. The results of in vivo experiments show that chloroquine can increase the expression of PD-1 in tumor tissues. Combining chloroquine and PD-1 siRNA can further inhibit the growth and metastases of colon cancer and induce apoptosis. The mechanism underlying this phenomenon is the occurrence of chloroquine-induced apoptosis and the effective immune response caused by the attenuated Salmonella carrying PD-1 siRNA. This study suggests that the combined application of PD-1-based immunotherapy and anti-cancer drugs has become a new expectation for clinical treatment of colorectal cancer.

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Section: Discussionmentioning

confidence: 99%

PD-1-siRNA Delivered by Attenuated Salmonella Enhances the Antitumor Effect of Chloroquine in Colon Cancer

Jia

et al. 2021

Front. Immunol.

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“…Preclinical data showed a high percentage of bacteria maintained in blood after administration for longer period. Other than that, the limited cytotoxic properties of bacteria requiring conjugation with chemotherapeutic agents as well as the risk of mutation due to genetic modification are also obstacles that need to be overcome to utilise bacteria as a potential therapy in cancer patients ( 5 , 103 , 104 ). On the other hand, BGs has its limitation as a delivery system.…”

Section: The Obstacle Of Bacterial Therapymentioning

confidence: 99%

Recent Update on Bacteria as a Delivery Carrier in Cancer Therapy: From Evil to Allies

et al. 2022

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“…Modifications regarding synthesis and delivery of anticancer payloads by bacteria are also worth briefly noting. The list of therapeutic payloads continues to grow, with focus placed largely on incorporation or secretion of cytokines, TAA, immune modulators, prodrugs, gene silencers or transport effectors [202,203] (Figure 4). For example, Salmonella avoids detection through use of a modified vacuole, the salmonella-containing vacuole (SCV), allowing time to accomplish replication-which could be exploited as a platform for either continuous drug delivery or to reach therapeutic levels higher than the initial dosage [204,205].…”

Section: The Optimization Of Bacteria-mediated Oncotherapeutic Payloadsmentioning

confidence: 99%

The Evolution and Future of Targeted Cancer Therapy: From Nanoparticles, Oncolytic Viruses, and Oncolytic Bacteria to the Treatment of Solid Tumors

et al. 2021

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While many classes of chemotherapeutic agents exist to treat solid tumors, few can generate a lasting response without substantial off-target toxicity despite significant scientific advancements and investments. In this review, the paths of development for nanoparticles, oncolytic viruses, and oncolytic bacteria over the last 20 years of research towards clinical translation and acceptance as novel cancer therapeutics are compared. Novel nanoparticle, oncolytic virus, and oncolytic bacteria therapies all start with a common goal of accomplishing therapeutic drug activity or delivery to a specific site while avoiding off-target effects, with overlapping methodology between all three modalities. Indeed, the degree of overlap is substantial enough that breakthroughs in one therapeutic could have considerable implications on the progression of the other two. Each oncotherapeutic modality has accomplished clinical translation, successfully overcoming the potential pitfalls promising therapeutics face. However, once studies enter clinical trials, the data all but disappears, leaving pre-clinical researchers largely in the dark. Overall, the creativity, flexibility, and innovation of these modalities for solid tumor treatments are greatly encouraging, and usher in a new age of pharmaceutical development.

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Use of Salmonella Bacteria in Cancer Therapy: Direct, Drug Delivery and Combination Approaches

Cited by 33 publications

References 138 publications

PD-1-siRNA Delivered by Attenuated Salmonella Enhances the Antitumor Effect of Chloroquine in Colon Cancer

PD-1-siRNA Delivered by Attenuated Salmonella Enhances the Antitumor Effect of Chloroquine in Colon Cancer

Recent Update on Bacteria as a Delivery Carrier in Cancer Therapy: From Evil to Allies

The Evolution and Future of Targeted Cancer Therapy: From Nanoparticles, Oncolytic Viruses, and Oncolytic Bacteria to the Treatment of Solid Tumors

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