Tag Archives: Targeted Therapy

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The tide is turning. Finally!

It has been four decades since the initiation of President Nixon’s “War on Cancer”, but never have the signs for victory looked so encouraging. This is an exciting phase in cancer research, so much so that some in the field are even using the “c” word. Cure!

So what is happening in the world of cancer therapeutics? And where are we headed? This was the topic of the Super Session: “A New Paradigm in Oncology Treatment” on Tuesday, June 24, 2014 at the 2014 BIO International Convention.

The thought-provoking discussion in this session reviewed current approaches and obstacles in oncology treatment, and discussed the way forward. Moderated by Susan Schaeffer of BioCentury, the panelists included:

  1. Ronald DePinho, MD Anderson Cancer Center
  2. Peter Lebowitz, Janssen Pharmaceutical Companies of J & J
  3. Bahija Jallal, AstraZeneca and MedImmune
  4. Robert Hugin, Celgene Corporation
  5. Jeff Allen, Friends of Cancer Research
Big Data, Cancer Therapeutics
Panelists at the Super Session "A New Paradigm for Oncology Treatment" (from L to R): Susan Schaeffer, Ronald A. DePinho, Peter Lebowitz, Bahija Jallal, Robert Hugin, Jeff Allen (Image Credit: BIO via Flickr)

Advances in Cancer Biology and Medicine

Developments in the omics fields have enabled scientists to molecularly characterize different cancers. Since each person’s cancer is different, the ability to profile a cancer is proving to be a valuable tool in the clinician’s armamentarium. In addition, we are witnessing the rapid development of newer targeted drugs. In the year 2012, the US Food and Drug Administration approved 39 targeted drugs for cancer (18 in the year 2013). Owing to these factors, oncologists can now develop personalized medicine approaches to treat cancer patients.

During the panel discussion, Peter Lebowitz agreed that better understanding of the disease biology has driven this progress; however, he hopes that technological advances would help us, especially to understand the tumor microenvironment, since that is crucial for cancer growth and maintenance.

Cancer Immunotherapy

With the advent of successful immunotherapy, the possibilities for cancer therapeutics have expanded even further. The success of immunotherapy over the past few years is just becoming obvious; it has succeeded in prolonging disease-free survival in patients with aggressive malignancies, such as non-small cell lung cancer and melanoma. Previously, clinicians rarely saw such durable responses with targeted therapies.

“Immunotherapy is definitely transforming the way we look at cancers,” said Bahija Jallal.

Ronald DePinho is excited by the success of immunotherapy and believes that it is the best approach for solid tumors, which are highly heterogeneous. However, he feels that we cannot entirely overlook targeted therapy. According to both DePinho and Robert Hugin, the ideal approach would be to use combinations in ways that produce synergies.

Regarding the use of immunotherapy, Lebowitz had a word of caution. “Often our dogma gets us in trouble” he quipped.

Lebowitz insisted that we should study and understand how each therapy acts, before using combinations in the clinic. This would prevent counter-productive effects of either therapy on cancer, when administered together.

Novel Approaches to Clinical Oncology

With better disease understanding, clinicians are matching targeted therapies to cancers. It is clear now that the one mutation-one drug paradigm for treating cancers is a gross over-simplification and does not work in the clinic. Successful cancer treatment requires the use of a panel of biomarkers to identify effective therapy. Generating these biomarker panels is possible due to newer technologies in the fields of genomics and proteomics. Further, in order to identify effective therapeutic options, innovative algorithms are required that account for the complexity of cancer and make predictions.

Apart from therapies, the field of clinical cancer medicine is shifting towards innovative clinical trials, such as the recent Lung-MAP trial – the first precision medicine trial from the National Clinical Trials Network. This is a multi-drug, biomarker-driven clinical trial for patients with advanced squamous cell lung cancer that will be conducted under a public-private collaboration. Such emerging public-private collaborations may hold the key to future success in developing disease-targeted therapies.

The world of cancer research, academia and industry, represents an ecosystem. The key to success in this ecosystem is collaboration – integrating research data and clinical data, and sharing it freely between academia and industry. This synergistic collaboration will benefit both clinicians and researchers – to draw conclusions, to facilitate clinical decision-making, and to drive research.