Abstract
Research into the metabolism of the non-essential amino acid (NEAA) proline in cancer has gained traction in recent years. The last step in the proline biosynthesis pathway is catalyzed by pyrroline-5-carboxylate reductase (PYCR) enzymes. There are three PYCR enzymes: mitochondrial PYCR1 and 2 and cytosolic PYCR3 encoded by separate genes. The expression of the PYCR1 gene is increased in numerous malignancies and correlates with poor prognosis. PYCR1 expression sustains cancer cells’ proliferation and survival and several mechanisms have been implicated to explain its oncogenic role. It has been suggested that the biosynthesis of proline is key to sustain protein synthesis, support mitochondrial function and nucleotide biosynthesis. However, the links between proline metabolism and cancer remain ill-defined and are likely to be tissue specific. Here we use a combination of human dataset, human tissue and mouse models to show that the expression levels of the proline biosynthesis enzymes are significantly increased during colorectal tumorigenesis. Functionally, the expression of mitochondrial PYCRs is necessary for cancer cells’ survival and proliferation. However, the phenotypic consequences of PYCRs depletion could not be rescued by external supplementation with either proline or nucleotides. Overall, our data suggest that, despite the mechanisms underlying the role of proline metabolism in colorectal tumorigenesis remain elusive, targeting the proline biosynthesis pathway is a suitable approach for the development of novel anti-cancer therapies.
Highlights
The rewiring of cellular metabolism has been recognized as a key hallmark of tumorigenesis [1]
We confirmed and expanded previous evidence that expression of proline biosynthesis enzymes is increased in colorectal cancer (CRC) [18]
When using a mouse model of CRC, we showed that the rewiring of proline metabolism occurs early during colorectal tumorigenesis
Summary
The rewiring of cellular metabolism has been recognized as a key hallmark of tumorigenesis [1]. Role of pyrroline-5-carboxylate reductases in colorectal cancer development. R.P.G. is supported through a Development Grant to A.R. and C.T. from the charity Hope Against Cancer
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