Multidimensional role of bacteria in cancer: Mechanisms insight, diagnostic, preventive and therapeutic potential
The active role of bacteria in oncogenesis has long been a topic of debate. Although, it was
speculated to be a transmissible cause of cancer as early as the 16th-century, yet the idea
about the direct involvement of bacteria in cancer development has only been explored in
recent decades. More recently, several studies have uncovered the mechanisms behind the
carcinogenic potential of bacteria which are inflammation, immune evasion, pro-
carcinogenic metabolite production, DNA damage and genomic instability. On the other …
speculated to be a transmissible cause of cancer as early as the 16th-century, yet the idea
about the direct involvement of bacteria in cancer development has only been explored in
recent decades. More recently, several studies have uncovered the mechanisms behind the
carcinogenic potential of bacteria which are inflammation, immune evasion, pro-
carcinogenic metabolite production, DNA damage and genomic instability. On the other …
Abstract
The active role of bacteria in oncogenesis has long been a topic of debate. Although, it was speculated to be a transmissible cause of cancer as early as the 16th-century, yet the idea about the direct involvement of bacteria in cancer development has only been explored in recent decades. More recently, several studies have uncovered the mechanisms behind the carcinogenic potential of bacteria which are inflammation, immune evasion, pro-carcinogenic metabolite production, DNA damage and genomic instability. On the other side, the recent development on the understanding of tumor microenvironment and technological advancements has turned this enemy into an ally. Studies using bacteria for cancer treatment and detection have shown noticeable effects. Therapeutic abilities of bioengineered live bacteria such as high specificity, selective cytotoxicity to cancer cells, responsiveness to external signals and control after ingestion have helped to overcome the challenges faced by conventional cancer therapies and highlighted the bacterial based therapy as an ideal approach for cancer treatment. In this review, we have made an effort to compile substantial evidence to support the multidimensional role of bacteria in cancer. We have discussed the multifaceted role of bacteria in cancer by highlighting the wide impact of bacteria on different cancer types, their mechanisms of actions in inducing carcinogenicity, followed by the diagnostic and therapeutic potential of bacteria in cancers. Moreover, we have also highlighted the existing gaps in the knowledge of the association between bacteria and cancer as well as the limitation and advantage of bacteria-based therapies in cancer. A better understanding of these multidimensional roles of bacteria in cancer can open up the new doorways to develop early detection strategies, prevent cancer, and develop therapeutic tactics to cure this devastating disease.
Elsevier