The HCV Combo Race Just Got Hotter
Jan13

The HCV Combo Race Just Got Hotter

BMS is shelling out $2.5 billion dollars for Inhibitex, a small pharma company with a Phase II molecule for treatment of Hepatitis C (HCV). The deal adds to the scramble for HCV assets in recent months, with Gilead agreeing to pay almost $11 billion for Pharmasset in November, and Roche’s recent purchase of Anadys. While much has been written about the merits (and price tags) of each deal, the Haystack thought it was worth taking a closer look at the chemical composition of the multi-million dollar molecules. So what did BMS get for their money? INX-089, Inhibitex’s lead molecule, has a common antiviral motif: a nucleoside core (the 5-membered ring sugar attached to a nitrogen heterocycle) with an amino acid based prodrug hanging off the left-hand side. Clinically-tested antivirals sharing this basic setup include IDX-184 and NM-283, both from Idenix, and PSI-352938, from Pharmasset  (For an overview of the varied structures currently in development for HCV, see Lisa’s 2010 C&EN story). INX-089 bears a close resemblance to Pharmasset’s lead nucleotide inhibitor PSI-7977. That’s not a mistake, believes ‘089 discoverer Chris McGuigan, of the Welsh School of Pharmacy. In a recent article (J. Med. Chem. 2010, 53, 4949), McGuigan himself comments “The Pharmasset nucleoside [is] rather parallel to our early work on anti-HIV ProTides.” Wait, what are ProTides? Both INX-089 and PSI-7977 aren’t themselves the active viral inhibitor, but phosphoramidate “ProTide” prodrugs: compounds broken down by the body into the active drug (Chem Note: PSI-7977 has single-enantiomer Sp chirality at phosphorus, while INX-189 is a mixture of diastereomers). Once in the body, enzymes cleave the phosphoramidate group to a phosphate (PO42-). Kinases attach two more phosphate groups, and viruses let this dressed-up molecule inside, where the nucleotide warhead inhibits HCV by interfering with RNA replication (Antimicrob. Agents Chemother. 2011, 55, 1843). A few comments on the drug itself: The similarity of the ProTide portion (left-hand side) of the molecule to PSI-7977 really is striking: swap in an isobutyl ester and a phenyl, and it’s the same beast! The more interesting switch comes on the upper-right (“eastern”) part of the structure: a protected guanosine ring. This ring harks back to guanine, one of the four common nucleic acids found in DNA. PSI-7977, meanwhile, shows off a uracil, a nucleic acid found in RNA, not DNA. Although it’s tempting to think such similar compounds all dock into the NS5B polymerase at the active site (in the yellow “palm” of the hand-shaped enzyme), don’t be too sure – a recent paper by Pharmasset scientists (J. Med. Chem. 2012, Just Accepted) shows quite a few “Finger,” “Palm,” and “Thumb” sites.  It’s not yet clear whether...

Read More
Haystack 2011 Year-in-Review
Jan03

Haystack 2011 Year-in-Review

Well, 2011 is in the books, and we here at The Haystack felt nostalgic for all the great chemistry coverage over this past year, both here and farther afield. Let’s hit the high points: 1. HCV Takes Off – New treatments for Hepatitis C have really gained momentum. An amazing race has broken out to bring orally available, non-interferon therapies to market. In October, we saw Roche acquire Anadys for setrobuvir, and then watched Pharmasset’s success with PSI-7977 prompt Gilead’s $11 billion November buyout.  And both these deals came hot on the heels of Merck and Vertex each garnering FDA approval for Victrelis and Incivek, respectively, late last spring. 2. Employment Outlook: Mixed – The Haystack brought bad employment tidings a few times in 2011, as Lisa reported. The “patent cliff” faced by blockbuster drugs, combined with relatively sparse pharma pipelines, had companies tightening their belts more than normal. Traffic also increased for Chemjobber Daily Pump Trap updates, which cover current job openings for chemists of all stripes. The highlight, though, might be his Layoff Project.  He collects oral histories from those who’ve lost their jobs over the past few years due to the pervasive recession and (slowly) recovering US economy.. The result is a touching, direct, and sometimes painful collection of stories from scientists trying to reconstruct their careers, enduring salary cuts, moves, and emotional battles just to get back to work. 3. For Cancer, Targeted Therapies – It’s also been quite a year for targeted cancer drugs. A small subset of myeloma patients (those with a rare mutation) gained hope from vemurafenib approval. This molecule, developed initially by Plexxikon and later by Roche / Daiichi Sankyo, represents the first success of fragment-based lead discovery, where a chunk of the core structure is built up into a drug with help from computer screening.From Ariad’s promising  ponatinib P2 data for chronic myeloid leukemia, to Novartis’s Afinitor working in combination with aromasin to combat resistant breast cancer. Lisa became ‘xcited for Xalkori, a protein-driven lung cancer therapeutic from Pfizer. Researchers at Stanford Medical School used GLUT1 inhibitors to starve renal carcinomas of precious glucose, Genentech pushed ahead MEK-P31K inhibitor combinations for resistant tumors, and Incyte’s new drug Jakifi (ruxolitinib), a Janus kinase inhibitor, gave hope to those suffering from the rare blood cancer myelofibrosis. 4. Sirtuins, and “Stuff I Won’t Work With  – Over at In the Pipeline, Derek continued to chase high-profile pharma stories. We wanted to especially mention his Sirtris / GSK coverage (we had touched on this issue in Dec 2010). He kept up with the “sirtuin saga” throughout 2011, from trouble with duplicating life extension in model organisms to the...

Read More
World AIDS Day Roundup
Dec01

World AIDS Day Roundup

Today is World AIDS Day. Here are some selected tidbits of basic science and business developments in the HIV/AIDS arena that we've covered in 2010. (Some C&EN links are subscriber-only). In May, Belgian scientists reported early results on the path to a new type of antiviral- one that blocks an interaction between HIV integrase, which helps the virus integrate its DNA into that of a human host cell, and a human protein that is critical for this process as well. In contrast, the FDA-approved drug raltegravir interferes with the integrase protein itself. The Belgian scientists' report, which you can read here, does not include tests on humans or animals, but it suggests that the approach of blocking this interaction, rather than going straight for the integrase itself, might be a viable option for AIDS drug development. In June, two independent teams determined what an antibody with unusually potent and broad activity against HIV strains looks like. The teams hoped this information could give a boost to the search for an AIDS vaccine. These results, which you can read here and here, are preliminary and nothing has been tested in animals or people yet. But because an AIDS vaccine would have to generate a stronger immune response to the virus than the body is capable of on its own, any clues as to how to make that immune response stronger (say, with a really powerful antibody) are welcome to scientists. In July, researchers at the International AIDS Conference in Vienna reported that a microbiocidal gel containing 1% tenofovir (brand name Viread), an antiretroviral drug, helped lower the risk of contracting HIV and genital herpes. Unlike the more preliminary work I mentioned earlier, this study was done in human patients. Also in July, Gilead Sciences announced it would close its research site in Durham, NC by the end of this year. Gilead first acquired the site when it bought Triangle Pharmaceuticals in 2003. Triangle scientists' drug discovery efforts had led to Gilead's AIDS drug Emtriva, which won regulatory approval months after Gilead acquired the business. NC-based news outlet the News-Observer had extra details on company history when the news broke: Triangle was one of the Triangle's most promising young drug companies. It was formed in 1995 by a group of former Burroughs Wellcome executives led by the late David Barry, who was a co-inventor of the first major AIDS drug, AZT. Tragedy struck the company in 2002 when Barry died of a heart attack at age 58. And finally, at August's American Chemical Society National Meeting in Boston, David S. Teager, a chemist with the Clinton Health Access Initiative, explained how...

Read More