Project description:Tissue-adhesive, antibacterial and antioxidant hydrogel sealant for sealing colorectal anastomotic leakage and preventing postoperative adhesion

Project description:Elucidating the interactions between the adhesive and transcriptional functions of beta-catenin in normal and cancerous cells. van Leeuwen IM1, Byrne HM, Jensen OE, King JR. Author information 1 Centre for Mathematical Medicine and Biology, Division of Applied Mathematics, School of Mathematical Sciences, University of Nottingham, Nottingham, NG7 2RD, UK. pmzivl@exmail.nottingham.ac.uk Abstract Wnt signalling is involved in a wide range of physiological and pathological processes. The presence of an extracellular Wnt stimulus induces cytoplasmic stabilisation and nuclear translocation of beta-catenin, a protein that also plays an essential role in cadherin-mediated adhesion. Two main hypotheses have been proposed concerning the balance between beta-catenin's adhesive and transcriptional functions: either beta-catenin's fate is determined by competition between its binding partners, or Wnt induces folding of beta-catenin into a conformation allocated preferentially to transcription. The experimental data supporting each hypotheses remain inconclusive. In this paper we present a new mathematical model of the Wnt pathway that incorporates beta-catenin's dual function. We use this model to carry out a series of in silico experiments and compare the behaviour of systems governed by each hypothesis. Our analytical results and model simulations provide further insight into the current understanding of Wnt signalling and, in particular, reveal differences in the response of the two modes of interaction between adhesion and signalling in certain in silico settings. We also exploit our model to investigate the impact of the mutations most commonly observed in human colorectal cancer. Simulations show that the amount of functional APC required to maintain a normal phenotype increases with increasing strength of the Wnt signal, a result which illustrates that the environment can substantially influence both tumour initiation and phenotype.

Project description:Chronic and non-healing skin wound is one of grievous complications of diabetes. In this study, we demonstrated a gas (carbon monoxide)-releasing hyaluronic acid hydrogel (i.e. COHAG) in promoting diabetic wound healing. Our results show that the COHAG significantly accelerated the healing process in diabtic rat full-thickness skin defect model, as compared with hydrogel without gas-releasing molecule and untreated group. Single-cell analysis of regenerating skin samples revealed that Cxcl14-overexpressing (Cxcl14+) fibroblast with progenitor properties are abundantly accumulated at the wound site after COHAG therapy.

Project description:Hyaluronic acid was proposed to support soft tissue recession surgery and guided tissue regeneration. Nevertheless, the molecular mechanisms through which hyaluronic acid modulates the response of the connective tissue cells remain elusive. To elucidate the impact of hyaluronic acid on the connective tissue cells, we employed bulk RNA sequencing to unravel the changes in the genetic signature gingival fibroblasts exposed to 1.6% cross-linked hyaluronic acid and 0.2% natural hyaluronic acid hyaluronic acid. Transcriptome-wide changes were modest, even when implementing a minimum of 1.5 log2 fold-change and a significance threshold of 1.0 -log10; only a dozenth gene was differentially expressed and ranked according to the Manhattan distance. Upregulated were PLK3, SLC16A6, IL6, HBEGF, DGKE, DUSP4, PTGS2, FOXC2, ATAD2B, NFATC2, and downregulated were MMP24 and PLXNA2. RT-PCR analysis supported the impact of hyaluronic acid on increasing expression of the selected gene panel. The findings from bulk RNA sequencing suggest that gingival fibroblasts only show a weak response when exposed to hyaluronic acid.

Project description:The development of postoperative recurrent tumors or metastasis following surgical resection of colorectal cancer remains a major obstacle to colon cancer cure. While a high-fat diet is a risk factor for the development of recurrence, studies that examine the molecular mechanism by which diet drives postoperative tumors have been lacking. Here, using a murine model that mimics postoperative tumor formation, we show that the tumorigenic influence of a high-fat diet strongly depends on the genetic backbone of the primary tumor cells. We identify deoxycholic acid as a major contributor to the promotion of tumor recurrence only when the primary cancer cell line has an APC-driving, but not with an KRAS-driving mutation. We recapitulate the deoxycholic acid effect on the proliferation of tumoroids and identify the tumoroid response to the transcriptome expression and transfer RNA abundance, modification, and charging. The integrated analysis of mRNA and tRNA sequencing results reveals enhanced decoding of codons in proliferation-promoting genes. Our results provide a new understanding of how both diet and tumor genetics together lead to postoperative colorectal cancer recurrence.

Project description:The development of postoperative recurrence following surgical resection of colorectal cancer remains a major obstacle. While a high-fat diet is a risk factors for the development of recurrence studies that examine the molecular mechanism by which diet drives postoperative tumors have been lacking. Here, using a murine model that mimics postoperative tumor formation, we show that the tumorigenic influence of a high-fat diet strongly depends on the genetic backbone of the tumor cells. We identify deoxycholic acid as a major contributor to the promotion of tumor recurrence. We recapitulate the deoxycholic acid effect on the proliferation of tumoroids and identify the tumoroid response to the transcriptome expression and to transfer RNA abundance, modification, and charging. The integrated analysis of mRNA and tRNA sequencing results reveals enhanced decoding of codons in proliferation-promoting genes. Our results provide a new understanding of associating diet, tumor genetics, and a translation regulation mechanism in colorectal cancer recurrence.

Project description:Tissue-resident memory (TRM) T cells preferentially reside in peripheral tissues, serving as key players in tumor immunity and immunotherapy. Currently, the lack of effective approaches for expanding TRM cells and delivering these cells in vivo hinder the exploration of TRM cell-mediated cancer immunotherapy. Here, we report a nanoparticle artificial antigen-presenting cell (nano-aAPC) ex vivo expansion approach and an in vivo delivery system for TRM cells. Using the nano-aAPC platform, we expanded functional antigen-specific murine and human TRM-like CD8+ T cells ex vivo. We also developed an injectable macroporous hyaluronic acid (HA) hydrogel for delivery of TRM-like cells. TRM-like cells delivered in the optimized HA hydrogel trigger robust local and systemic antitumor immunity and show synergistic effect with anti-PD1 treatment. Our findings suggest that nano-aAPC-induced TRM-like cells, coupled with a hydrogel delivery system, offer an efficient way to advance the understanding of TRM cells-mediated cancer therapy.

Project description:Here, we used single cell RNA-sequencing (scRNA-seq) to profile pluripotent stem cell derived human intestinal organoids (HIOs) grown in matrigel or a non-adhesive alginate hydrogel after 28 days of in vitro growth. Additionally, we used scRNA-seq to profile HIOs derived in the presence of Neuregulin 1 (NRG1) and/or EGF after 40 days of in vitro growth.

Project description:Eicosapentaenoic acid in its free fatty acid form (EPA-FFA), 2g daily, is safe and well-tolerated in patients undergoing liver resection surgery for colorectal liver metastasis.Oral EPA incorporates into colorectal liver metastasis tissue. EPA-FFA treatment is associated with reduced vascularity of liver metastases in ω-3 PUFA-naïve patients. Preoperative (median 30 days) EPA-FFA treatment may have prolonged benefit on postoperative overall and disease-free survival. We used whole genome expression array to study whether systemic CCL2 level changes were linked to a specific tumour gene expression profile in colorectal liver metastasis patients treated with EPA-FFA.

Project description:By a global proteomic approach and phenotypic assays, we investigated the impact of surface stiffness on E. coli biofilm formation capacity. A global proteomic approach was used in order to identify the most abundant proteins for the comparison between E. coli adhesion in PDMS 9 kPa and 574kPa, (polydimethylsiloxane,), and between HA 44Pa and 2kPa (hyaluronic acid gels).