And the good news extends well beyond breast cancer. The evidence suggests the drug could one day be used to treat many other types of tumors — opening broad opportunities for Enhertu and other drugs like it.
Enhertu is what’s known as an antibody-drug conjugate, because it uses an antibody to home in on a tumor cell before releasing a payload of toxic chemotherapy to kill it. This drug’s antibody zeroes in on a protein called HER2, a growth signal that in some breast cancers becomes too amped up. The US Food and Drug Administration approved Enhertu in late 2019 for some so-called “HER2 positive” cancers, or tumors that on a diagnostic test show a certain threshold of that signal.
The new data are from breast cancers that have low, even negligible levels of HER2. That means a far wider range of patients might benefit from the drug — as many as 55% of breast cancers that were previously considered “HER2 negative” could actually have these low levels of the protein.
Other HER2-targeted drugs have been studied in patients whose tumors express low levels of the protein, but none have helped. Oncologists have a few theories about what makes Enhertu different.
One possibility is that there’s just enough HER2 being expressed on the cancer-cell surface to make it “sticky” enough for Enhertu’s antibody to attach and then deliver the powerful chemo.
Another idea is related to tumors’ inherent variability. “When you look at breast cancers under a microscope, not every cell is the same,” says Harold Burnstein, a breast cancer specialist at Dana Farber Cancer Institute, in Boston. If enough cells with HER2 on the surface can lure the drug to the tumor, the chemo can also pick off nearby cancer cells that lack the key protein.
The design of the drug itself could also matter. Daiichi Sankyo, which discovered the drug before striking a deal to develop it with AstraZeneca in 2019, seems to have ironed out many of the kinks that limited the success of earlier antibody-drug conjugates. Enhertu uses a different, more powerful chemo payload and a bigger one, too. Whereas most antibody-drug conjugates carry two to four chemo molecules, Enhertu delivers eight. The payload’s effect is also more fleeting, to help minimize side effects from the very toxic chemo.
This suggests that, after decades of trial and error with antibody-drug conjugates, cancer researchers are finally starting to understand how best to design and use them.
And the success of this trial could mean the drug will be used well beyond breast cancer. Many other kinds of tumors express low levels of HER2, including gastric, colon and lung cancer. AstraZeneca is now studying Enhertu in these cancers. “The upside of this drug is yet to be fully realized,” Burnstein says.
The evidence adds to a growing body of research suggesting that antibody-drug conjugates will one day replace conventional chemo for most patients, says Maryam Lustberg, chief of Breast Medical Oncology at Yale Cancer Center.
The drugs are not without downsides. Enhertu’s design allows an otherwise too-toxic chemotherapy to be used, but the side effects of the drug — and antibody-drug conjugates in general — are similar to those of all chemo. And these drugs are much more expensive, potentially putting them out of reach for the uninsured or for breast cancer patients in low-income countries.
Nevertheless, Enhertu is teaching the field how to design drugs in this class to maximize their benefit. That could mean effective treatment for a wide universe of patients.
More From Bloomberg Opinion:
• The Pill Changed Everything. Time for a Reboot: Therese Raphael
• Can the US Fix Its Formula Crisis?: Sarah Green Carmichael
• How to Repair the Pandemic’s Damage to Cancer Care: Lisa Jarvis
This column does not necessarily reflect the opinion of the editorial board or Bloomberg LP and its owners.
Lisa Jarvis is a Bloomberg Opinion columnist covering biotech, health care and the pharmaceutical industry. Previously, she was executive editor of Chemical & Engineering News.
More stories like this are available on bloomberg.com/opinion