Metabolic profiling of renal cell carcinoma tissue using gas chromatography metabolomics

Authors

  • Filipa Amaro Associate Laboratory i4HB – Institute for Health and Bioeconomy, University of Porto, 4050-313 Porto, Portugal; UCIBIO – Applied Molecular Biosciences Unit, Laboratory of Toxicology, Faculty of Pharmacy, University of Porto, 4050-313 Porto, Portugal
  • Márcia Carvalho Associate Laboratory i4HB – Institute for Health and Bioeconomy, University of Porto, 4050-313 Porto, Portugal; UCIBIO – Applied Molecular Biosciences Unit, Laboratory of Toxicology, Faculty of Pharmacy, University of Porto, 4050-313 Porto, Portugal; RISE-UFP, Faculty of Health Sciences, University Fernando Pessoa, 4200-150 Porto, Portugal; Current address: LAQV/REQUIMTE, University of Porto, Porto, Portugal
  • Carina Carvalho-Maia Cancer Biology and Epigenetics Group, Research Center (CI-IPOP), Porto Comprehensive Cancer Center (P.CCC), Portuguese Oncology Institute of Porto (IPO Porto), 4200-072, Porto, Portugal; Department of Pathology, Portuguese Oncology Institute of Porto (IPO Porto), P.CCC Porto Comprehensive Cancer Center, 4200-072, Porto, Portugal
  • Carmen Jerónimo Cancer Biology and Epigenetics Group, Research Center (CI-IPOP), Porto Comprehensive Cancer Center (P.CCC), Portuguese Oncology Institute of Porto (IPO Porto), 4200-072, Porto, Portugal; Department of Pathology, Portuguese Oncology Institute of Porto (IPO Porto), P.CCC Porto Comprehensive Cancer Center, 4200-072, Porto, Portugal
  • Rui Henrique Cancer Biology and Epigenetics Group, Research Center (CI-IPOP), Porto Comprehensive Cancer Center (P.CCC), Portuguese Oncology Institute of Porto (IPO Porto), 4200-072, Porto, Portugal; Department of Pathology, Portuguese Oncology Institute of Porto (IPO Porto), P.CCC Porto Comprehensive Cancer Center, 4200-072, Porto, Portugal; Department of Pathology and Molecular Immunology, ICBAS-School of Medicine and Biomedical Sciences, University of Porto, University of Porto, 4050-313 Porto, Portugal
  • Maria de Lourdes Bastos Associate Laboratory i4HB – Institute for Health and Bioeconomy, University of Porto, 4050-313 Porto, Portugal; UCIBIO – Applied Molecular Biosciences Unit, Laboratory of Toxicology, Faculty of Pharmacy, University of Porto, 4050-313 Porto, Portugal
  • Paula Guedes de Pinho Associate Laboratory i4HB – Institute for Health and Bioeconomy, University of Porto, 4050-313 Porto, Portugal; UCIBIO – Applied Molecular Biosciences Unit, Laboratory of Toxicology, Faculty of Pharmacy, University of Porto, 4050-313 Porto, Portugal
  • Joana Pinto Associate Laboratory i4HB – Institute for Health and Bioeconomy, University of Porto, 4050-313 Porto, Portugal; UCIBIO – Applied Molecular Biosciences Unit, Laboratory of Toxicology, Faculty of Pharmacy, University of Porto, 4050-313 Porto, Portugal

DOI:

https://doi.org/10.48797/sl.2024.243

Keywords:

Poster

Abstract

Background: Renal cell carcinoma (RCC) is marked by dysregulation of angiogenesis, energy metabolism, and nutrient sensing pathways [1]. This diversity is an obstacle to achieving long-term responses to treatment, notwithstanding progress in targeted and immunotherapeutic drugs. Objective: This study aimed to characterise the metabolic dysregulations that occur in RCC tissue using a metabolomics approach. Methods: Tumour and non-tumour kidney tissues were collected from 18 patients who underwent nephrectomy at the Portuguese Oncology Institute of Porto (IPO-Porto). Ethical approval (238/2018) and written consent were obtained. Tissues were homogenised, and metabolites were extracted using a methanol-water technique. Metabolites were then analysed by gas chromatography-mass spectrometry (GC-MS) analysis. Statistical methods and pathway analysis were used to interpret potential dysregulations associated with RCC. Results: RCC tissue showed a significant reduction in amino acid levels (including alanine, asparagine, aspartate, serine, tyrosine, among others), except for β-alanine and glutamate, which exhibited significant elevated levels. Perturbations in organic acids were observed, with a significant decrease in fumarate and gluconate levels and an increase in 3-aminobutyrate, citrate, and lactate. Increased levels of glucose and maltose were also found in RCC tissue, whereas sugar derivatives such as myo-inositol and scyllo-inositol showed decreased levels. Pathway analysis suggested dysregulation in amino acid, energy (TCA cycle, pyruvate metabolism), sugar, and glutathione metabolism pathways in RCC tissue. Conclusions: These results reveal the metabolic reprogramming related with the development and progression of RCC. Understanding these alterations provides important insights for improving RCC treatment strategies.

References

1. Zhu, H.; Wang, X.; Lu, S.; Ou, K. Metabolic reprogramming of clear cell renal cell carcinoma. Front Endocrinol (Lausanne) (2023), 14, 1195500.

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Published

2024-05-01

How to Cite

Amaro, F., Carvalho, M., Carvalho-Maia, C., Jerónimo, C., Henrique, R., Bastos, M. de L., Guedes de Pinho, P., & Pinto, J. (2024). Metabolic profiling of renal cell carcinoma tissue using gas chromatography metabolomics. Scientific Letters, 1(Sup 1). https://doi.org/10.48797/sl.2024.243

Issue

Vol. 1 No. Sup 1 (2024)

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Copyright (c) 2024 Filipa Amaro, Márcia Carvalho, Carina Carvalho-Maia, Carmen Jerónimo, Rui Henrique, Maria de Lourdes Bastos, Paula Guedes de Pinho, Joana Pinto

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