Abstract Background Inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS) represent chronic and occasionally disabling conditions, necessitating innovative treatment strategies. Covering 14% of Ireland's landscape, bogland ecosystems house unique plant biodiversity, yielding biologically active secondary metabolites. Informed by traditional medicinal knowledge and in vitro screening for immunomodulatory potential, three plant extracts (NTP0226A, NTP0127B, NTP0206EA) were selected for exploration of their potential to treat IBD and IBS within the "Unlocking Nature’s Pharmacy from Bogland Species" project. Methods Patients undergoing colonoscopy were prospectively recruited in three cohorts: healthy controls, IBS, and ulcerative colitis (UC). Recto-sigmoid biopsies were collected and cultured for 24 h with treatments (Infliximab, NTP0226A, NTP0127B, NTP0206EA). Colonic tissue explants underwent real-time energy metabolism profiling and quantification of 10 inflammatory mediators using Seahorse Xfe24 analyser and multiplex ELISA, respectively. P values <0.05 were considered significant in analyses. Results Twenty-seven patients were recruited (6 healthy controls, 6 IBS, and 15 UC). UC patient explants exhibited elevated glycolytic metabolism and increased IL-4, IL-6, and IL-12p70 secretion compared to non-UC patients. No differences were observed between healthy controls and IBS patients. Linear regression did not show correlation between age and mitochondrial bioenergetics. There was no change in metabolism profiles of any cohort following treatment with Infliximab or the 3 novel extracts. In the UC tissue, treatment with Infliximab reduced IL-12p70 secretion (p=0.0098), this reduction was not seen in the other 2 cohorts. NTP0206EA reduced IL-10 secretion in the UC cohort (p=0.0255). In the IBS cohort; NTP0127B reduced IL-10 secretion (p=0.0048) and NTP0226A reduced IL-4 (p=0.004) and IL-6 (p=0.0219) secretion. Principal component analysis demonstrated reduced separation between the immune-metabolic profiles of UC patients and healthy controls following treatment with NTP0226A (Figure 1). Conclusion Using an explant model, we have shown that UC patients have a distinct immune-metabolic profile modifiable by a standard IBD therapy and novel plant extracts. Blockade of IL-6 trans-signalling has recently shown promise as an effective treatment target in IBD. Our natural extract NTP0226A reduced IL-6 secretion in IBS patients and is a promising candidate for therapeutic exploration. These findings contribute to our understanding of the complex interplay in the colonic microenvironment and highlight potential avenues for novel therapeutic interventions.