Timing is everything with docetaxel (and hormone therapy and probably with immunotherapy and radiopharmaceuticals too)

(Updated)

The conventional wisdom with cancer is that "earlier is better." As cancers progress, they mutate: there are many more genetic errors in older cancers than in younger ones (see this link). Because of this, a therapy that may work well against a cancer in one stage of its development, may not work at all in an earlier or a later stage.

Prostate cancer is one of the most slow-growing of cancers in its early stages. This is why we can take so much time to decide on initial treatment, even in high-risk cases (see this link). It is also why low-risk men may safely choose active surveillance over immediate radical therapy. Progression is only weakly correlated with time since diagnosis, even for recurrences (see this link).

Early Use of Docetaxel

We have already seen that docetaxel is of limited (if any) use when combined with radiation therapy and ADT for high-risk cancer patients (see this link). It is also ineffective when combined with prostatectomy and ADT for high-risk cancer patients (see this link). However, it can improve prognosis in men who have low PSA (<0.4ng/ml), high Gleason grade (8-10), and good performance status (see this link).

Oudard et al. conducted a randomized clinical trial of docetaxel+ADT vs ADT-alone in non-metastatic men with a recurrence after primary treatment. All 250 patients were "high risk," which was defined as at least one of the following:

• Gleason score ≥ 8
• PSA velocity > 0.75 ng/ml/year
• PSADT ≤ 6 months
• time to recurrence ≤ 12 months

Previous treatments were:

• 73% had prior prostatectomy
• 27% had prior primary radiotherapy ± ADT
• 60% of men who had a prostatectomy also had salvage EBRT

The outcomes were as follows:

• Median PSA progression-free survival was no different:19 months if they got docetaxel, 20 months if they didn't
• Median time to radiographic progression was no different: 9 years in each group
• There was no difference in 12-year overall survival rates: 60% in the docetaxel group, 55% in the no-docetaxel group. (The docetaxel group was 2 years younger)
• Adverse hematological events from docetaxel included neutropenia (48%), febrile neutropenia (8%) and thrombocytopenia (3%)

CHAARTED showed that the survival increase attributable to docetaxel in recently-diagnosed, metastatic men was only observed among men with a high volume of metastases, but not among men with a low volume of metastases. "High volume" was defined as visceral metastases or 4 or more bone mets with at least one beyond the pelvis or vertebrae. However, a STAMPEDE update showed no difference in overall survival or failure-free survival between the two subgroups. The STAMPEDE authors point to their larger trial and that their analysis applies more to newly diagnosed men, whereas the CHAARTED groups had more previously treated men.  They advocate early use of docetaxel regardless of metastatic burden.

One small observational study suggested that docetaxel may benefit men who are castration-resistant but are not yet detectably metastatic. At the other end of the progression spectrum, in men who are both metastatic and castration-resistant, docetaxel added a median survival of 3 months (see this link), compared to a median of 17 additional months among men with high volume metastases in the CHAARTED trial.

The "sweet spot" for docetaxel seems to be after there are detectable metastases but before castration resistance is fully established. Used earlier, it seems to have no effect in most men; used later, it is still effective, but less so.

Early Use of Docetaxel + Second Line Hormonal Therapy

Triplet therapy means combining docetaxel with a second-generation hormonal medication and ADT. Triplets with abiraterone, darolutamide, and enzalutamide have been found to confer greater benefit than docetaxel+ADT in newly-diagnosed metastatic men (discussed here). The benefit held with darolutamide (in the ARASENS trial) even in men with low metastatic burden. Presumably, there will be a similar benefit with abiraterone when the PEACE1 trial matures.

Docetaxel remains effective even after second-line hormonals (e.g., Zytiga, Xtandi) have stopped working. In fact, there have been cases where use of docetaxel has reversed resistance to them caused by the AR-V7 splice variant. However, when men are already castration-resistant, combining docetaxel and Xtandi slowed progression but did not result in a survival advantage over docetaxel alone in the Phase II CHEIRON trial. The Phase III PRESIDE trial proved that docetaxel could reverse Xtandi resistance, but did not increase survival.

Again, earlier use of docetaxel is better.

Rechallenge with Docetaxel may be better than Switch to Cabazitaxel

Pedro Barata reported the results of a retrospective analysis of a VA database. All patients had docetaxel more than 3 months earlier.

• Overall Survival was 12.3 months for the rechallenge vs 9.6 months for the switch, a significant difference
• PSA declined more for the rechallenge than the switch
• Because it's retrospective, the patients who had the greatest success with docetaxel were more likely to get a rechallenge.

Early Use of Hormone Therapy

It is well established that hormone therapy alone adds nothing to the survival of localized prostate cancer (see this link and this one). We also know that hormone therapy adds nothing to the effectiveness of radiation therapy for favorable risk prostate cancer (see this link and this one and this one). Even with recurrent prostate cancer post-prostatectomy, a major randomized clinical trial (RTOG 9601)  found that adding long-term antiandrogen therapy to radiation did not increase outcomes as much in men who had Gleason score ≤ 7, PSA ≤ 0.7 ng/ml or negative surgical margins.

Men who started on ADT earlier developed castration resistance significantly later. This effect was also noted in the TROG 03.04 RADAR trial. The authors wrote, "The cumulative incidence of transition to castration resistance was significantly lower in men receiving [longer term ADT with their EBRT]."


Early Use of Second-line Hormone Therapy

We have learned that the use of abiraterone (Zytiga) in newly-diagnosed metastatic men increases survival markedly over waiting. Zytiga adds 4 months to survival among men who are castration-resistant and have had chemo (see this link). In the STAMPEDE trial, median (50%) survival was 76.6 months with Zytiga vs 45.7 months with ADT alone.  So, early Zytiga increased median survival by 31 months, reducing mortality by 38%; In LATITUDE, early Zytiga increased median survival by16.8 months. Abiraterone was equally effective regardless of the number of metastases or whether they were classified as higher or lower risk (see this link).

Enzalutamide (Xtandi) is probably also beneficial if used earlier. A non-randomized clinical trial of early use of Xtandi showed it is very effective if used earlier (see this link), and a Phase 3 trial for its use in hormone-sensitive prostate cancer has had good results, according to a press release.

The FDA has approved apalutamide (Erleada) and enzalutamide (Xtandi) for use in non-metastatic castration-resistant prostate cancer. Darolutamide and abiraterone (Zytiga) will probably also be approved for this indication. Non-metastatic castration-resistant prostate cancer is probably an early version of metastatic castration-resistant prostate cancer, where micrometastases have not yet grown large enough to become detectable on a bone scan/CT.

Clinical trials suggest or are in process to determine if there is a role for advanced hormonal agents even earlier; for example in any of the following early settings:

• as part of an active surveillance protocol for men with favorable risk prostate cancer (see this link)
• adjuvant to radiation in high-risk localized prostate cancer (see this link)
• when it as advanced to only as far as pelvic lymph nodes (Stage N1 M0) (see this link)
• when it is recurrent but not yet detectably metastatic (see this link)

Early Use of Immunotherapy

Although Provenge is more effective when the patient's disease is less progressed (see this link), it was not any more effective when used for mHSPC in one small study (see this link). There are several clinical trials to help determine whether immunotherapy can play a role in extending the time that a man can stay on active surveillance (see this link and this one and this one).

In the "CHECKMATE 650" clinical trial of a combination of the two checkpoint inhibitor-type immunotherapies, nivolumab (Opdivo) and ipilimumab (Yervoy), there was some response (in 25% of pre-chemo men and 10% of post-chemo men) from the combination, but no response from either drug alone in earlier trials. However, all of the responders  (60% of the pre-chemo group and 40% of the post-chemo group) had a high mutational burden and/or showed the presence of PD-L1 in the tumors (33% of the pre-chemo group and 19% of the post-chemo group). Conversely, none of the men who had low mutational burden or PD-L1 had any response to the combination therapy. Toxicity was unacceptably high. This indicates that the cancer must evolve to a high degree of genetic breakdown before such therapies become effective. Early use causes unacceptable toxicity without any survival benefit.

At some point, cancer cells start displaying antigens that can be recognized by the immune system as "non-self," but it is not clear when that occurs in prostate cancer progression. Perhaps the fragments generated radiation may make the cancer more susceptible to immune attack (see this link). However, chemo, which also generates antigen fragments, has failed to stimulate an immunotherapy response from checkpoint inhibitors. The combination of docetaxel with a checkpoint inhibitor has proven to be ineffective in this trial and this one. It is also unclear when immune infiltration into tumors can occur, when checkpoint inhibitors (like PD-L1) begin to appear, and when regulatory T cells are overwhelmed by killer T-cells. Pro- and anti-inflammatory cytokines undoubtedly play a role in immune signaling and may occur at different stages.

Early Use of Radiopharmaceuticals

The ideal candidate for Xofigo will get all 6 treatments, preferably earlier, while bone health is still good (see this link). It has been found to work better on smaller tumors, so it is best used earlier rather than later (see this link). Because the combination of Xofigo and Zytiga caused excessive fractures and deaths (see this link), they can't be given simultaneously, at least not without a bone-preserving agent (like Zometa or Xgeva). Since a full cycle is completed in 24 weeks, taking Xofigo before Zytiga allows one to get the benefit of both in less time.

We do not know enough about the natural history of PSMA yet. We don't know when the PSMA protein first appears on the tumor surface. It has been detected in "high risk" patients, and is more often associated with higher grade cancer and in men with higher PSAs (see this link and this one). It as been detected in up to 95% of metastases. PSMA-based PET scans (Ga-68-PSMA-11 or DCFPyL) are used to check for PSMA-avidity before treatment. Without significant PSMA, the radiopharmaceutical would have nothing to latch onto, and might cause toxicity with no cancer-killing benefit. This is called the "tumor sink effect" and was noted in this study and this one.

A pilot test in South Africa suggests that Ac-225-PSMA-617 had good efficacy in patients who were not heavily pretreated, but their cancer was more progressed when treated. A trial with Lu-177-PSMA found that overall survival was 11 months in patients who had already had chemo (and were more progressed) and was 27 months in chemo-naive patients (who were also less progressed). Earlier seems to be better.


Although it is generally true that earlier treatment is better, we have learned that there are exceptions. There is tremendous individual variation, and it is likely that the window of opportunity varies.

Newest radiopharmaceutical: Th-227-PSMA-antibody

Bayer has announced a new clinical trial of the latest entry in the race for radiopharmaceuticals to treat prostate cancer, joining Lu-177-PSMA-617, Ac-225-PSMA-617, and I-131-MIP-1095. They are trying Thorium-227 attached to a PSMA antibody.

Thorium-227, like Ac-225, is an alpha-particle emitter. Alpha emitters are very powerful, but very short range, only killing cells that are 2 to 10 cells away from the cancer cell it attaches to. This may limit its toxicity, but may require higher doses for larger, more widespread tumors.  Beta emitters, like Lu-177, are less powerful, but the beta particle penetrates to a much greater depth, affecting about 125 cells. Researchers at the University of Heidelberg are experimenting with mixtures of the two.

The other part of the equation is the ligand that the radioactive atom is attached to and that attaches to the PSMA protein on the prostate cancer cell. Ligands include PSMA-617, PSMA-I&T, MIP-1095, and J591. Ligands may be small molecules, antibodies, or "minibodies." Bayer is using a proprietary antibody-type ligand that they developed for the purpose. Ligands that are more specific for PSMA have less toxicity.

On the other side of the ligand molecule, it must bind very tightly to the radioactive element. If it doesn't, the radioactive element might be released into systemic circulation where it can damage healthy cells. Heavy metals, like thorium, are attached relatively weakly by a process called "chelation," but some chelators are stronger than others. Researchers have so far been unsuccessful in developing a stable chelate for Ra-223 (the main ingredient in Xofigo, which is also manufactured by Bayer) to a PSMA ligand. However, Th-227 decays into Ra-223, so it is unknown if the thorium chelate will continue to hold as it decays. However, Bayer has already begun two clinical trials for Th-227 chelated to an antibody for non-Hodgkin's lymphoma since 2015, and for ovarian cancer and mesothelioma since April, which have not been terminated for excess toxicity. There is every reason to hope that the chelation complex they devised for the PSMA-antibody ligand holds up in biological systems. But if it doesn't hold chemically, it becomes the active ingredient in Xofigo, and may be doubly therapeutic in men with bone metastases.

This is a dose-finding (Phase 1) clinical trial among 108 patients with metastatic castration-resistant prostate cancer. They list 4 locations that will be recruiting: Memorial Sloan Kettering in NYC, Tulane (New Orleans), as well as locations in the UK and Finland.

I-131-MIP-1095 has entered a phase 2 randomized clinical trial

As I reported last year, a new radiopharmaceutical has entered the pack. I-131-MIP-1095, a powerful beta-particle emitter attached to a PSMA-targeted ligand, will enter a multicenter phase 2 randomized clinical trial. Progenics®, the manufacturer, put out a press release, which can be read here. (Update 4/2020) The clinical trial has begun recruiting in 17 locations in the US and Canada.

They will be testing a combination of I-131-MIP-1095 with enzalutamide (Xtandi) in patients who are metastatic, castration resistant, have not yet had chemotherapy, and who have become resistant to Zytiga. It is hoped that Xtandi will radiosensitize the cancer to the radiopharmaceutical with a resultant PSA decrease.

175 evaluable patients will be recruited; half will get the radiopharmaceutical + Xtandi, half will get Xtandi alone. All patients will be screened using DCFPyL PET/CT to assure that their metastases are PSMA-avid. The primary endpoint - the percent who have greater than 50% PSA reduction - will be collected for a year. Secondary endpoints - radiographic response, progression-free survival, and overall survival - will be reported at the end of two years.

Another radiopharmaceutical in clinical trials is Lu-177-PSMA-617 .  There are various phase 1 and 2 clinical trials in the US and internationally (see list at the end of this link).

I recently reported about the very promising outcomes of Ac-225-PSMA-617 in Germany. Patients report that they are combining Ac-225-PSMA-617 and Lu-177-PSMA-617 to get the advantages of each. Weill Cornell in NYC is investigating Ac-225-J591 in a phase 1 trial.

For information on the trial of Th-227-PSMA, see this link.

I-131-MIP-1095, a new radiopharmaceutical, in clinical trials at Memorial Sloan Kettering

There are few radiopharmaceuticals in clinical trials in the US (there are several in use in Germany), so when a new one is announced, we take notice. I-131-MIP-1095 has had a very limited clinical trial in Germany in 28 patients, and will now be tried in the US.

Like Lutetium 177, Iodine 131 is a beta particle emitter (see this link). It's beta particle energy is somewhat higher, so that it can penetrate greater distances through tissue - up to 3.6 mm, compared to 1.9 mm for Lu-177. This is an advantage in that it can destroy larger tumors, but it is a disadvantage in that it may destroy more healthy tissue, causing hematological and renal side effects. It is also similar to Lu-177 in that its uptake in human tissues can be detected using a gamma ray camera or SPECT detector. Because gamma ray detection does not afford the image quality that PET/CT does, it may be combined with a positron emitter, I-124. Lu-177 is sometimes combined with Ga-68 for the same purpose. This combination of therapeutic and diagnostic (sometimes called theranostic) may be useful in tailoring the dose to the patient based on individual uptake characteristics.

The molecule (or ligand) that the I-131 is attached to is MIP-1095. MIP-1095 is attracted to the PSMA protein on the surface of 95% of prostate cancer cells. Although it is highly specific for prostate cancer, there are other tissues that express PSMA, especially the salivary glands and lacrimal glands. It is excreted by the liver and kidneys, and may show up in the intestines, and the lower urinary tract. The dose to the kidneys may limit the amount of the pharmaceutical that may be given to the patient.

A group from the University Hospital Heidelberg, Zechman et al., treated 28 metastatic castration-resistant patients with I-131-MIP-1095 with the following results:

• In 61%, PSA was reduced by >50%. This is better than the response seen with Lu-177-PSMA-617 in these trials and in this one.
• PSA decreased in 21 of 25 patients, increased in 4.
• 85% had complete or moderate reduction of bone pain. 
• 25% had a transient slight to moderate dry mouth, which resolved in 3-4 weeks.
• White blood cell count, red blood cell count and platelets declined during treatment, but there were only 3 cases of grade 3 hematologic toxicity, often in patients with low blood counts at baseline.
• No renal toxicity was observed.
• The effective dose to cancer cells was higher than for Lu-177-PSMA-617, red marrow and kidney doses were similar, and liver dose was lower.

The clinical trial that is now recruiting at Memorial Sloan Kettering, is a Phase 1 trial to find the best dose of I-131-MIP-1095 among patients with metastatic castration-resistant prostate cancer. Doses will be administered 12 weeks apart for up to 5 cycles or until dose-limiting toxicity is observed (monthly assessments). Interested patients in the New York City metropolitan area should call the contacts listed on the bottom of this trial description.