Advertisement

If you have an ACS member number, please enter it here so we can link this account to your membership. (optional)

ACS values your privacy. By submitting your information, you are gaining access to C&EN and subscribing to our weekly newsletter. We use the information you provide to make your reading experience better, and we will never sell your data to third party members.

ENJOY UNLIMITED ACCES TO C&EN

Drug Development

Birinapant, Apoptosis Inhibitor

by Carmen Drahl
April 22, 2013 | A version of this story appeared in Volume 91, Issue 16

 

[+]Enlarge
Credit: Courtesy of TetraLogic Pharmaceuticals
(From left) Guangyao Yu, Yijun Deng, Gurpreet Singh Kapoor, Condon, Susan Rippin, Martin Graham, Angeline Mufalli, Jennifer Burns, Martin Seipel, Eric Neiman, Thomas Haimowitz, Christopher Benetatos, Yasuhiro Mitsuuchi, Srinivas Chunduru. Not pictured: Divya Goel
(From left) Guangyao Yu, Yijun Deng, Gurpreet Singh Kapoor, Condon, Susan Rippin, Martin Graham, Angeline Mufalli, Jennifer Burns, Martin Seipel, Eric Neiman, Thomas Haimowitz, Christopher Benetatos, Yasuhiro Mitsuuchi, Srinivas Chunduru Not pictured: Divya Goel
Credit: Courtesy of TetraLogic Pharmaceuticals
(From left) Guangyao Yu, Yijun Deng, Gurpreet Singh Kapoor, Condon, Susan Rippin, Martin Graham, Angeline Mufalli, Jennifer Burns, Martin Seipel, Eric Neiman, Thomas Haimowitz, Christopher Benetatos, Yasuhiro Mitsuuchi, Srinivas Chunduru. Not pictured: Divya Goel

It’s often said that two heads are better than one. For Malvern, Pa.-based TetraLogic Pharmaceuticals, it was combining two copies of a molecule into one drug candidate that did the trick. Stephen M. Condon, vice president for chemistry at TetraLogic, told the story of that candidate, birinapant, in New Orleans.

Birinapant was designed to reinstate cancer cells’ ability to die. Many cancers that are resistant to conventional chemotherapy drugs have defects in the cell death pathway known as apoptosis. The human body uses apoptosis every day to clear away abnormal or unwanted cells.

Apoptosis is a tightly regulated process, Condon explains, with a network of proteins that activate or block the process. TetraLogic’s target is a family of proteins called the Inhibitor of Apoptosis proteins. As their name suggests, these proteins block apoptosis. They interfere with protease enzymes that carry out cellular dismantling.

TetraLogic’s aim is to lift that blockade to restart apoptosis in tumors. Many tumors have excesses of the apoptosis inhibitor proteins relative to normal cells, so targeting this process has the potential to be less toxic to normal cells compared with conventional chemotherapy.

Birinapant

null

 

\

Company: TetraLogic Pharmaceuticals

Target: Inhibitor of Apoptosis proteins

Disease: cancer

It turns out nature has a way of negating the inhibitor proteins’ actions—a protein known as Smac. TetraLogic’s founders demonstrated that only a tiny portion of Smac is necessary to keep the inhibitor proteins at bay—the four amino acids at the protein’s N-terminus. “Once you can get a protein down to a tetrapeptide,” about the size of a small-molecule drug, “you start getting a lot of interest from the pharma community,” Condon told C&EN.

Peptides fall apart in the body too quickly to be drugs, so Condon’s team worked with molecular mimics of the Smac tetrapeptide. Their biggest advance was realizing that combining two copies of their tetrapeptide mimics into one molecule made their compounds highly effective at reinstating apoptosis in cancer cell lines. Many proteins in the apoptosis pathway function as dimers, so using these so-called bivalent mimics against them makes sense, Condon said.

However, several of the bivalent compounds were associated with pronounced body weight loss in mice. Condon’s team eventually learned that replacing a branched side chain on their peptide mimics and adding a hydroxyl group to a proline residue improved the tolerability for the animals without impacting the antitumor effect. With that, birinapant was born.

In mice, birinapant shrank tumors. The compound has been in clinical trials since 2009, both on its own and in combination with other chemotherapy drugs such as irinotecan and gemcitabine. On the basis of other biochemical work on the apoptosis pathway, TetraLogic thinks these drugs could act in synergy with birinapant to treat cancer, Condon said.

Birinapant is currently in Phase II clinical trials in patients with acute myeloid leukemia, pancreatic cancer, or ovarian cancer. Although these trials don’t have a control group, the emerging data are promising, TetraLogic chief executive officer John M. Gill told C&EN. (Early-stage cancer clinical trials are commonly run without placebo groups.) The birinapant trials show preliminary evidence both that the drug is having the desired effect and that this effect is associated with signs of clinical activity. Given these results, the company plans to launch randomized Phase II studies early in 2014.

Article:

This article has been sent to the following recipient:

0 /1 FREE ARTICLES LEFT THIS MONTH Remaining
Chemistry matters. Join us to get the news you need.