The gut microbiome is increasingly recognized as a key driver of tumor initiation, progression, and treatment response, according to a special issue published in May 2026 in the journal Cancer Biology & Medicine. The collection of seven review articles, guest-edited by Professor Jun Yu from The Chinese University of Hong Kong, highlights how microbial dysbiosis can either fuel malignancy or enhance anti-tumor immunity, shifting the paradigm from passive observation to active manipulation of the microbiome for cancer prevention, diagnosis, and therapy.
Cancer remains notoriously difficult to treat partly because tumors co-opt their surrounding environment, including the resident microbiota, to evade immune surveillance and resist conventional therapies. While traditional oncology has focused on genetic and cellular alterations within tumor cells, the role of the gut and intratumoral microbiome has long been overlooked. However, new insights into how bacterial metabolites modulate host immunity, how tumor-resident bacteria directly interact with cancer cells, and how microbial signatures correlate with clinical outcomes are opening unexpected avenues for intervention.
Several articles in the issue showcase where microbiome-based strategies are already gaining traction. One review examines how gut dysbiosis—loss of beneficial bacteria such as Lactobacillus and Akkermansia and overgrowth of pathogens like Klebsiella pneumoniae—drives hepatocarcinogenesis through microbial translocation and chronic inflammation. Another outlines a multi-omics framework for decoding host-microbe interactions in colorectal cancer, emphasizing integration of metagenomics, transcriptomics, and metabolomics to identify actionable targets. A third article makes the case for probiotics as promising adjuncts to conventional therapy, highlighting their capacity to restore gut barrier function and modulate local immune responses.
Perhaps most transformative, a review on tumor-resident bacteria reveals how these previously overlooked inhabitants can serve as diagnostic and prognostic biomarkers while also influencing therapeutic outcomes. Additional contributions cover animal models for gastric cancer research, the role of the microbiome in pancreatic cancer, and a mechanistic framework linking microbial metabolites to immunogenic cell death, which could help convert ‘cold’ tumors into ‘hot’ ones responsive to checkpoint inhibitors.
‘This collection shows that the next phase of cancer research isn’t about choosing between genetics, immunology, or microbiology—it’s about understanding how these systems interconnect and learning to modulate them in concert,’ the authors noted. They explained that the microbiome works best not as an isolated factor but as an integral component of the tumor ecosystem, and that interventions—whether through fecal microbiota transplantation, engineered bacteria, or metabolite-based drugs—must be designed with this holistic view in mind.
These advances point toward a more integrated model for personalized cancer care. Microbiome-derived biomarkers could one day enable early detection of gastric and colorectal cancers through non-invasive stool tests. Probiotic formulations, tailored to individual gut profiles, might boost the efficacy of immune checkpoint inhibitors while reducing immune-related adverse events. Fecal microbiota transplantation, already explored in melanoma and other cancers, offers a practical path for reshaping the gut ecosystem to favor anti-tumor immunity. For patients with bacteria-infected tumors—often linked to poor prognosis—targeted antimicrobial or nanodrug strategies could simultaneously combat infection and malignancy. As these approaches mature, the line between diagnosis, treatment, and prevention will likely continue to blur, pushing cancer care closer to truly precision medicine—where the microbiome, once a forgotten ally, becomes an indispensable guide.
The special issue includes articles with DOIs such as 10.20892/j.issn.2095-3941.2026.0349 on the gut microbiome as an emerging player and therapeutic target in cancer, and 10.20892/j.issn.2095-3941.2025.0761 on how the gut microbiome affects immunotherapy response in hepatocellular carcinoma. Other articles explore microbiota-host interaction in colorectal cancer (10.20892/j.issn.2095-3941.2025.0762), probiotics in colorectal cancer (10.20892/j.issn.2095-3941.2026.0133), and tumor-resident bacteria in gastrointestinal cancers (10.20892/j.issn.2095-3941.2025.0686). Additional topics include animal models of gastric cancer (10.20892/j.issn.2095-3941.2025.0576), microbial reprogramming of immunogenic cell death (10.20892/j.issn.2095-3941.2025.0769), and gut microbiota in pancreatic cancer (10.20892/j.issn.2095-3941.2025.0650).
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