The Indian Institute of Technology Madras and Sankar Nethralaya researchers have modeled the biochemical principles of Retinoblastoma and identified pathways by which diseased cells obtain energy for survival and proliferation in a cross-departmental study.This research lead to identifying five more new drug targets, which offer the potential for developing new and more effective drugs with minimal side-effects.

 

Thepublished workis the first study to use Constraint-Based Modeling (CBM) to predict metabolic biomarkers for diagnosis of Retinoblastoma in Indian patients and to suggest novel drug targets for its treatment. Their work has recently been published in the Journal FEBS Letters, a platform for the four journals owned by the not-for-profit Federation of European Biochemical Societies (FEBS). Leading medical and genomics research organizations in India and the U.S. contributed to this Research.

Retinoblastoma is a rare form of cancer that affects one in every 1,500 children across the world. In India alone, 1,500 new cases of Pediatric Retinoblastoma are reported every day, adding tremendously to the socio-economic burden of cancer care. The most common symptoms of this disease are the appearance of a white dot in the retina and squint.As with most forms of cancer, the key to retinoblastoma management is early detection and treatment.

 

The Research Team comprised Dr. Swagatika Sahoo, DST-INSPIRE Faculty, Department of Chemical Engineering, and Initiative for Biological Systems Engineering (IBSE), IIT Madras, Dr. Sailaja V. Elchuri, Associate Professor, Department of Nanotechnology, Vision Research Foundation, Sankara Nethralaya, Dr. Karthik Raman, Associate Professor, Department of Biotechnology and Coordinator, IBSE, IIT Madras, besides Mr. Ranjith Kumar Ravi Kumar, Masters Student, Department of Nanotechnology, Vision Research Foundation, Sankara Nethralaya.

 

Speaking on the need for intensive drug development in oncology, Dr. Swagatika Sahoo said, “The consequences of cancer treatment are often grave due to their serious and often dilapidating side effects. Hence, it is important to develop safer drugs. The Anti-Cancer drug must selectively target malignant cells with high specificity, without affecting healthy cells, thereby avoiding serious side effects. The discovery of such drugs depends on understanding of differences in the mechanisms by which cancer cells grow and spread as opposed to normal cells. Using genome-scale mathematical modelling approaches, like the one described in this Research, as well as, it’s validation/support from experimental experts can pave newer and safer diagnostic options.”

 

Eminent Physicians who treated Retinoblastoma patients from whom tumours for the research work were obtained include Dr. Vikas Khetan and Dr. Pukhraj Rishi. Dr Krishnakumar S. is a distinguished Pathologist and Retinoblastoma expert who lead the COE grant along with Dr. Sailaja Elchuri to perform this work.

 

The identified novel targets have potential to be tested in preclinical models of RB, such as RB cells grown on three dimensional scaffolds, which can mimic a mouse xenograft grown tumour. At present, there are no targeted therapies for RB treatment. The present research should enable a step closer to achieve this goal. Studies are underway.

 

The research team used a technique called Constraint-Based Modelling (CBM), in which physicochemical, environmental, and topological constraints of the biological system – in this case, the retinoblastoma cells – are combined and subjected to computer-driven mathematical analyses to unravel the genomics and biochemistry of the system.

 

“To date, no study exists that uses mathematical modelling to analyze the major functions of retina and their derangement in RB, from the biochemical pathways/metabolism standpoint”, the authors write in their research paper. Their models were then used to identify the differences between healthy and retinoblastoma cells, as well as, between the cancer types.

 

This Initiative was funded through the DST-INSPIRE Faculty Award (DST/INSPIRE/04/2015/000036), Department of Science and Technology, Government of India and India Programme support for Research on Retinoblastoma of the Department of Biotechnology, Government of India, besides DST-SERB.

Retinoblastoma is a childhood tumour that affects one or both eyes of children with 1,500 new cases of paediatric retinoblastoma reported in India every day