Project description:Human isotopic tracer studies are fast becoming the gold standard model to study cancer metabolism in vivo. Analysed tissues are typically retrieved after surgical resection, which exposes them to a variable extent of warm ischaemia. Although standardised protocols are emerging, the effects of sampling conditions on the tissue metabolome remain understudied. Here, we perform a 13C-glucose study coupled with metabolomic, transcriptomic, and proteomic profiling in patients with clear cell renal cell carcinoma (ccRCC) to assess the metabolic profile of tissues sampled intraoperatively, when blood supply is intact, versus post-surgical resection, which exposes the tissue to ischaemia. We show that ischaemia significantly affects the metabolic landscape of ccRCC, masking some critical features, such as suppressed gluconeogenesis. Furthermore, in orthotopic ccRCC-derived xenografts, we identified that prolonged exposure to ischaemia disrupts the tissue metabolome stability. Therefore, minimising tissue ischaemia is

Project description:We aimed to assess differences in miRNA expression profiles in transcriptomic molecular subtypes of ccRCC (Beuselinck et al, Clinical Cancer Research 2015) and to correlate miRNAs with overal survival since diagnosis of ccRCC. Sequencing was done for 129 primary ccRCC (formalin-fixed paraffin-embedded surgical resection specimens, previously untreated) and 16 normal kidney specimens. Normal kidney was obtained from the nephrectomy specimens at time of ccRCC removal, in tissue blocks containing only normal kidney (so nót the normal kidney immediately adjacent to ccRCC). The samples were sequenced in 2 major batches (2014 and 2017).

Project description:Uninvolved tissue taken at the time of primary surgical resection of an adenocarcinoma. Uninvolved status determined by surgical margin and gross appearance, not pathology

Project description:Digestive NETs are the second most common malignant digestive tumor after adenocarcinoma. The most common gastrointestinal NETs arise from the small intestine. These tumors have a high lymph node and distant metastatic potential (hepatic, pulmonary, etc.). Their management is essentially surgical and the extent of the resection essentially depends on preoperative data from conventional and isotopic imaging. The goal of surgical resection is to remove the portion of the small intestine carrying the tumour(s) with healthy margins (so-called R0 resection) and affected lymph nodes in the mesentery (lymph node dissection). The extent of lymph node dissection, sometimes significant, exposes you to the risk of short hail with its own complications (malnutrition, diarrhoea, etc.). Consequently, an analysis of the benefits and risks between the interest of an extensive and oncological resection (R0) and the risks of short bowel must be carried out for each patient. The reference examination to define lymph node involvement is determined by the histological examination of the resected surgical specimen (reference examination). The preoperative evaluation of lymph node extension is done by preoperative abdominal CT scan. However, the preoperative CT scan is not always consistent (sensitivity and specificity) with the pathology data (reference examination). For about 5 years, isotopic imaging (DOPA-PET and DOTATOC) has become feasible and could improve the quality of preoperative evaluation of lymph node extension. Consequently, the aim of this study is to determine the contribution of isotopic imaging (DOPA-PET and DOTATOC) in the preoperative evaluation of lymph node extension.

Project description:Surgical resection can influence tissue behavior and immune interactions, leading to an altered inflammatory state. Our clinical trial delivers intraoperative photodynamic therapy (PDT) to the thoracic cavity after macroscopic complete resection of malignant pleural mesothelioma (MPM) tumors. We have previously published evidence of systemic inflammation via increases in circulating levels of IL-6 after surgical resection. Thus, we expect surgery to alter local signal transduction in the resection field by the time that PDT is delivered. To detect these signaling changes, RNA sequencing analysis was performed on tumor tissue isolated at different time intervals during the surgery (and prior to PDT) from 33 MPM patients. We discovered several pathways associated with tumor behavior and immune function were activated over the course of surgery.

Project description:During heart transplantation, storage in cold preservation solution is thought to protect the organ by slowing metabolism; by providing osmotic support; and by minimising ischaemia-reperfusion (IR) injury upon transplantation into the recipient. Despite its widespread use, our understanding of the metabolic changes prevented by cold storage and how warm ischaemia leads to damage is surprisingly poor. Here, we compared the metabolic changes during warm ischaemia (WI) and cold ischaemia (CI) in hearts from mouse, pig, and human. We identified common metabolic alterations during WI and those affected by CI, thereby elucidating mechanisms underlying the benefits of CI, and how WI causes damage. Succinate accumulation is a major feature within ischaemic hearts across species, and CI slows succinate generation, thereby reducing tissue damage upon reperfusion caused by the production of mitochondrial reactive oxygen species (ROS). Importantly, the inevitable periods of WI during organ procurement led to the accumulation of damaging levels of succinate during transplantation, despite cooling organs as rapidly as possible. This damage was ameliorated by metabolic inhibitors that prevented succinate accumulation and oxidation. Our findings suggest how WI and CI contribute to transplant outcome and indicate new therapies for improving the quality of transplanted organs.

Project description:We selected 24 formalin-fixed paraffin-embedded tissue blocks from 6 patients with primary liver cancer (PLC) and who underwent surgical resection at Eastern Hepatobiliary Surgery Hospital (EHBH) for proteomics analysis,

Project description:Most kidney cancers display metabolic dysfunction but how this relates to cancer progression in humans is unknown. We infused 13C-labeled nutrients during surgical tumour resection in over 80 patients with kidney cancer. Labeling from [U-13C]glucose varies across subtypes, indicating that the kidney environment alone cannot account for all metabolic reprogramming in these tumours. Compared to the adjacent kidney, clear cell renal cell carcinomas (ccRCC) display suppressed labelling of tricarboxylic acid (TCA) cycle intermediates in vivo and in organotypic cultures ex vivo, indicating that suppressed labeling is tissue intrinsic. Infusions of [1,2-13C]acetate and [U-13C]glutamine in patients, coupled with measurements of respiration in mitochondria isolated from kidneys and tumours, reveal electron transport chain (ETC) defects in ccRCC. However, ccRCC metastases unexpectedly have enhanced TCA cycle labeling compared to primary ccRCCs, indicating a divergent metabolic program during metastasis in patients. In mice, stimulating respiration or NADH recycling in kidney cancer cells is sufficient to promote metastasis, while inhibiting ETC complex I decreases metastasis. These findings indicate that metabolic properties and liabilities evolve during kidney cancer progression in humans, and that mitochondrial function is limiting for metastasis but not for growth at the original site.

Project description:Uninvolved tissue taken at the time of primary surgical resection of an adenocarcinoma. Uninvolved status determined by surgical margin and gross appearance, not pathology 35 biologically distinct samples, no replicates, no controls

Project description:We performed scATAC-seq on glioblastoma tissue samples taken at time of initial surgical resection to map the global chromatin profiles of glioblastoma cells and associated non-neoplastic cells