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IIT Madras Identifies Unique Pathways of Eye Cancer

Based on computational modelling, researchers at the Indian Institute of Technology (IIT) Madras have identified the biochemical pathways that eye cancer (retinoblastoma) preferentially chooses for growth and survival. The pathways chosen are very different from the ones that normal, healthy cells choose.
Retinoblastoma is a childhood tumour, affecting single or both the eyes. Retinoblastoma-related mortality rate is high in Asian and African countries due to its late stage presentation. The current treatment methods — chemotherapy and enucleation — are associated with severe disabilities. Therefore, a systems level understanding of the disease is necessary for suggesting alternative treatment and novel diagnostics.
As a first step, the researchers used tumour samples taken from seven retinoblastoma patients and three normal retina samples. Unlike cell lines, actual patient samples were used and so even fewer samples would suffice for the modelling. The RNA sequence was extracted from the tumour and normal samples as a first step to derive the model.
Biochemical pathway
RNA translates into proteins (enzymes) and the enzymes catalyse the reactions which form part of different pathways. These components are exploited to generate respective data types — RNA sequence data, proteomics data and metabolomics data — each of which can be integrated to derive the model.
For this study, the RNA sequence data and physiological/biochemical information were used to derive patient- and healthy cell-specific models. The subsequent models were then used to analyse the biochemical pathways.
“This way we were able to differentiate the biochemical pathways that cancer cells preferentially choose for their survival,” says Dr. Swagatika Sahoo, a INSPIRE faculty at the Department of Chemical Engineering, IIT Madras who co-led the team. The results of the study were published in the journal FEBS Letters.
For instance, unlike health cells which use carbohydrate for energy and survival, the tumour tissue preferentially uses four amino acids instead.
“Amino acids are a major source of energy for the tumour tissue, while carbohydrate and fatty acids are used to a lesser extend for energy,” says Dr. Sahoo.
By relying on amino acids for energy, the tumour tissue preserves the fatty acid for other important functions such as signalling and membrane structure.
While amino acids are used at a higher rate, cholesterol synthesis is under-utilised by the retinoblastoma tissue. “The reason why the tumour under-utilises cholesterol synthesis is to preserve the redox potential of the cells, thereby mask the diseased condition. Any change in the redox potential is seen as abnormal and can alert the stress pathways,” says Dr. Sahoo.
(Input: Agencies)

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