Jensen Group – Nutritional Immunology

• Animal Models (DIO, NASH, Barrier integrity, Colitis, Abx, Viral infections, and more)
• Hot N’ Cold – Room temperature versus thermoneutral housing to manipulate host immunocompetence.
• Immune characterization (Multicolor single cell flow cytometry, ELISA’s, etc.).
• In vivo Imaging (e.g., tracking viral loads in real time).
• Gut microbiome functionality (FMT, Bioinformatics).
• Host-Microbe Interactions.
• Histology.
• Standard biochemistry assays.

A) Host defense peptides in mucosal immunology, including the seminal discovery of how enzymatic digestion of these peptides liberated bioactive fragments (PNAS, 2019), encompassing therapeutic potential to curb some of the most pertinent global health threats. A biological concept that has now been used by others to propose new treatments against both obesity and multidrug resistant bacteria and viruses.

B) Rewiring mucosal immunology by use of postbiotics as a sustainable nutrient source. With a required landmass of 0.03% compared to plant protein, this novel nutrient source is a sustainable candidate for alternative protein production. We were further able to correct a dysregulated microbiota as well as selectively increase the magnitude of peripherally induced regulatory T cells (Tregs) in small and large intestine (Nature Comms, 2021). These tissue-specific Tregs are uniquely equipped so suppress gastrointestinal inflammation. The technique has been patented and a License agreement between UCPH and an American startup has been signed.

C) Corroborating bacterial translocation in human obesity using strict contamination aware techniques (Nature Metab, 2020; 6th most cited paper in #BestofNatMetab2020). Cited >100 times the first two years post publication.

D) First to report a commensal gut microbiota species fueling human and mouse insulin resistance (Nature, 2016). Data from this seminal paper (cited >1.350 times) fostered the conceptual idea of how some commensal microbes may diet-dependently turn from friends to foes.

E) Development of a humanized fast-food mimicking diet capable of phenocopying human NASH and barrier dysfunction (manuscript in preparation). Key Opinion Leaders confirmed the superiority of this model. The model has further been utilized to corroborate diet-dependency in probiotic performance (Manuscript in revision).

2023

Beyond faecal samples: the hidden world of gut microbiota in the small intestine - Science News

Episode 44: Where do bacteria mainly live and why? Podcast w/ Dr. Jensen - Coreperform Corner

New Scientific Publication Explores the Differences Between Small and Large Intestine in Gut Microbiota Composition and Function and the Implications for Probiotic Administration - ILSI Europe

Differences between small and large intestine vital for probiotic precision - Nutra Ingredients Europe

Diet influences whether probiotics prevent or mitigate obesity - Science News

2021

Eating protein from bacteria strongly promotes health - Science News

New way to fight multidrug-resistant bacteria spares the good and kills the bad and the ugly - Science News

2020

Cheap and safe peptide will overcome multidrug-resistant bacteria - Science News

Harnessing bacteria to fight type 2 diabetes - Science News

2019

Unexpected chain reaction leads to mass destruction of bad bacteria - Science News