Will Lu-177-anti-PSMA be the next Xofigo?

Xofigo has been a game-changer in the treatment of prostate cancer metastatic to bone. Not only does it provide significant pain palliation and reduce skeletal-related adverse events, but it slows down progression of the disease, increasing median survival by about 30%. Unlike external beam radiation, it can be used when there are many widely distributed metastases.

Several new studies looked at a potentially important new radiotherapy. Lutetium 177 is a low-energy beta particle emitter. In this case, low energy is a good thing because it limits the distance the beta particles (actually electrons) can travel through tissue. Ideally, we want internal radiotherapies to deposit their energy in tumor tissue only; radioemitters that deposit their energy over long distances are too toxic for internal therapeutic applications. Xofigo (radium 223 chloride) is an alpha particle emitter (a helium nucleus consisting of 2 protons and 2 neutrons). Alpha particles are very heavy and can travel only a short distance through tissue; however, they deposit a lot of energy in the tissue they interact with, efficiently killing cancer cells in a small radius. One can safely hold a glass vial of Xofigo in one’s hand because it can’t penetrate beyond the thickness of the glass or penetrate skin. Because beta particles are thousands of times smaller than alpha particles, they can travel farther through tissue, but their cell-killing power is less.

Another desirable quality in radiotherapeutics is a half-life long enough to allow for convenient treatment and time in the body to kill off cancer cells, but short enough so that it doesn’t hang around too long, accumulate in the liver and kidneys, and kill healthy tissue. Both Ra-223 and Lu-177 fit that criterion.

Ra-223 is chemically similar to calcium, so tissues that uptake calcium, uptake radium as well. That means principally bone, especially in highly metabolically active sites like bone metastases.  However, calcium is ubiquitous in the human body, so small amounts of radium may accumulate in other tissues, causing toxicity.

Lu-177 by itself has little therapeutic use; however, scientists have attached it to an antibody found mostly on the surface prostate cancer cells, at least 95% of them, called prostate surface membrane antigen (PSMA). The radioactive Lu-177 is chemically bonded to a monoclonal PSMA antibody, called J591, which finds its way to prostate cancer cells anywhere in the body. Unlike Xofigo, which only attaches to bone metastases, Lu-177-anti-PSMA attaches to any metastasis – bone, lymph node or visceral. It can potentially treat systemic micrometastases as well. It has the ability to potentially kill many more cells because of the increased range of the beta particle. And because it does not attach to non-prostatic tissue, the toxicity is more limited.

Lu-177 has another important benefit that Ra-223 lacks: it emits small amounts of highly penetrating gamma rays. The gamma rays are not powerful enough to kill tissue, but they can be detected by a 2D gamma ray camera (scintigraphy), or a 3D SPECT scan. This means that we can see even small metastases that the radiotherapy is attacking; it is both therapeutic and diagnostic (sometimes called theranostic).

The table below summarizes some of the key characteristics of Ra-223 and Lu-177.

	Xofigo (Ra-223 Chloride)	Lu-177-anti-PSMA
Emits:	Alpha particles (95%)	Beta particles, gamma rays
Half-life:	11.4 days	6.7 days
Attaches to:	Tissues that uptake calcium	Prostate cancer expressing the prostate specific membrane antigen (PSMA)
Destroys metastases in:	Bone only (areas of active calcium uptake)	Bone, lymph nodes, viscera, systemic micrometastases
Destructive range:	Shorter range:<0.1 mm or about 8 cells	Longer range: ~0.25 mm or about 125 cells
Cancer cell killing power:	Higher	Lower
Imaging:	Not detectable	Gamma camera (scintigraphy) or SPECT
Toxicity	Gastrointestinal, edema, myelosuppression	Myelosuppression: platelets, neutrophils & leukocytes

Tagawa et al.(2013) published the results of a Phase II clinical trial that demonstrated Lu-177-anti-PSMA resulted in declines in PSA among patients with metastatic castrate-resistant prostate cancer. In a follow-up analysis, they reported a better response, including increased survival, but with higher toxicity with increased dose. As with Radium-223, PSA response may not be the best measure of its efficacy. They also noted large declines in circulating tumor cells (CTCs). There was better response among patients who had better anti-PSMA uptake. Based on this, they suggested the following additional studies:

• Improved patient selection using PSMA-based imaging and circulating tumor cell (CTC) analysis

• Escalated cumulative doses using dose fractionation

• Concurrent use with docetaxel to radiosensitize tumors

• Earlier use as soon as biochemical recurrence is identified after initial therapy

At the 2015 Genitourinary Conference there were early reports on some of those studies.  Batra et al. reported on a small Phase II clinical trial of Lu-177-anti-PSMA used with or without docetaxel, and with fractionated dosing. The group that received both docetaxel and the higher cumulative dosing with fractionated dosing had the best response, with 81% having a reduction in PSA of over 30%, although their overall survival did not seem significantly improved compared to the low dose group. The group that received the highest fractionated dose, but without docetaxel, had an overall survival three times longer (43 months) than the group that received a low dose. Myelosuppression was reversible after treatment. Karir et al. reported on CTC counts of patients in the same study. Over 90% of those with an unfavorable CTC count (>5) had a favorable CTC count (<5) following treatment. Interestingly, they found that anti-PSMA alone, without the added Lu-177, had a favorable effect in a small subset they tested.

Agarwal et al. used Lu-177-EDTMP in 44 patients with metastatic castrate resistant prostate cancer or breast cancer with skeletal metastases to see if it provided significant pain palliation. Complete alleviation of pain was observed in 13%, a partial response in 48%, and a minimal response in 25%.

The results so far look promising, and certainly warrant expanded clinical trials.

For those interested, there is an open clinical trial (NCT00859781) at 10 locations around the U.S., testing Lu-177-anti-PSMA plus ketoconazole and hydrocortisone in patients with biochemical progression after primary RP or RT and castrate-resistance, but who have no detectable distant metastases.