Sunday, December 18, 2016

Small Cell Prostate Cancer Clinical Trials

(frequently updated)

Small Cell Prostate Cancer (SCPC), and more generally Neuroendocrine Prostate Cancer (NEPC), are thankfully rare types of prostate cancers. They are not responsive to hormone therapy, to taxanes (Taxotere or Jevtana), or to radiation. They are difficult to detect and monitor with the kinds of imaging used to detect prostate adenocarcinoma (mpMRI, bone scans, PSMA PET scans), but may show up with FDG PET (see this link). They do not put out PSA, PAP or bone alkaline phosphatase. Special biochemical tests or biopsies for chromogranin A, neuron-specific enolase (NSE), synaptophysin,  DLL-3, CD56, and other biomarkers are required. It often appears at a "mixed type." 

Sub-types

Not all neuroendocrine prostate cancers carry the same prognosis. Aggarwal identified a sub-type that became prevalent in 17% of patients who were heavily pretreated with enzalutamide (Xtandi) and abiraterone (Zytiga). He calls this "treatment-emergent small cell neuroendocrine prostate cancer (t-SCNC). The pre-treatment probably selected for this subtype that may be partially responsive to familiar therapies. The "treatment-emergent" subtype and the small amounts sometimes detected initial biopsies do not appear to be as virulent (see this link). There are some studies that indicate that they may appear spontaneously in later stages of normal prostate cancer development. Aggarwal commented:
“Although long term androgen deprivation therapy may be associated with the development of treatment-emergent small cell neuroendocrine prostate cancer (t-SCNC) in a minority of patients, multiple studies have confirmed the long-term benefit of abiraterone and enzalutamide for prostate cancer patients in various disease settings. Use of these agents should not be limited by concern for the subsequent development of t-SCNC.”
Aggarwal has announced a clinical trial where he will be testing a combination of Xtandi, Keytruda, and ZEN-3694 in (among others) a group of men identified with the t-SCNC subtype. ZEN-3694 is an experimental medicine that inhibits a gene called MYC, which is often over-expressed in advanced prostate cancer. 


Aggarwal is also testing FOR-46 targeting the CD-46 protein that often is expressed in neuroendocrine tumors.


Because there are several subtypes of neuroendocrine PCa, Novartis is running a trial that takes patients with 3 different subtypes and treats them with a radiopharmaceutical with the most appropriate ligand tailored to the dominant subtype. A biopsy determines whether it is neuroendocrine and which of 3 subtypes predominates. 177Lu is attached to any of the following 3 ligands:
  1. PSMA
  2. SSTR2 (Somatostatin receptor)
  3. GRPR (Gonadotropin releasing hormone receptor)


Chemotherapy

Because of the "mixed type," chemo often includes a taxane. More often, a platin is mixed in a cocktail with another chemo agent, like etoposide. A couple of case reports from Japan (see this link and this one) reported some success with a platin combined with irinotecan.

This clinical trial at Duke has two chemotherapies (cabazitaxel and carboplatin), as well as two checkpoint blockade-type immunotherapies (nivolumab and ipilimumab):
CHAMP

Nuclear Medicine/ Somatostatin

The Urology Cancer Center in Omaha, Nebraska has announced a clinical trial of 225Ac-FPI-2059 for neuroendocrine cancers. FPI-2059 is a small molecule that attaches to the neurotensin receptor 1 peptide that is expressed by neuroendocrine cancer cells.

Another radiopharmaceutical has been tried by the nuclear medicine department at the University of Heidelberg. I suggest that anyone who is interested email or call (they all speak English) Uwe_Haberkorn@med.uni-heidelberg.de Phone: 06221/56 7731. With the euro now at close to parity with the dollar, this medical tourism is an especially attractive option:

213Bi-DOTATOC shows efficacy in targeting neuroendocrine tumors

A similar radiopharmaceutical using Lu-177-DOTATATE (called Lutathera) has been FDA-approved for small cell cancer affecting the digestive tract. DOTATOC (and also DOTATEC and DOTATATE) binds to somatostatin receptors on the small cell digestive tract cancer surface, where it is highly expressed. It is rarely expressed in small-cell prostate cancer, but there have been some isolated case reports like this one or small trials like this one. This means that treatment with a somatostatin analog (octreotide, lanreotide, or pasireotide) may be somewhat effective even without the radioactive emitter attached to it. These drugs are available now in the US, are not toxic, and your doctor can prescribe them without a clinical trial. there is a clinical trial of it in London for any solid tumor:

https://clinicaltrials.gov/ct2/show/NCT02236910

These clinical trials include somatostatins:

https://clinicaltrials.gov/ct2/show/NCT01794793
https://clinicaltrials.gov/ct2/show/NCT02754297

This clinical trial at Johns Hopkins uses Lutathera to treat neuroendocrine prostate cancer, specifically:


While the presence of somatostatin receptors in the tumor can be determined by pathological analysis (immunohistochemical (IHC) staining for SSTR2), there is an FDA-approved PET scan that uses Ga-68-DOTATATE that can detect it without a biopsy. It is used to detect neuroendocrine tumors that are often non-prostatic. Researchers at Emory found that Ga-68-DOTATATE uptake is higher even in neuroendocrine tumors of prostatic origin, which suggests that somatostatin-based therapy may be beneficial. (One patient who was positive for a BRCA2 mutation but negative for NEPC had high uptake as well.)

DLL3

DLL3 is a protein that is expressed on the surface of neuroendocrine cells regardless of the cancer of origin, and has been identified in two-thirds of neuroendocrine prostate cancer (NEPC) cells. An antibody linked to a chemotherapy, called Rova-T, against DLL3 has been developed and has shown some promise against NEPC in a preclinical study. Unfortunately, AbbVie discontinued R&D after it failed to meet goals for small cell lung cancer (SCLC). A Phase 2 trial that included NEPC was discontinued. Misha Beltran at Dana Farber has tried an antibody-drug conjugate (rovalpituzumab teserine) targeted to DLL3 on a single patient. After two treatments, his metastases shrank and stabilized.

Harpoon has announced a clinical trial of HPN328  for people with advanced cancers that express DLL3. HPN328 is a bispecific T-cell engager (BiTE) that targets DLL3 and also promotes T cells to attack those cells exhibiting it. AMG757 is also a BiTE. Amgen has announced a clinical trial of AMG 757 for advanced prostate cancer. Phanes Therapeutics has a BiTE clinical trial targeting DLL3.

AMG119 is a CAR-T therapy that targets DLL-3. CAR-T involves treating one's own T-cells by sensitizing them to DLL3. Both of these create a T-cell and a cytokine response in environments that otherwise have low immune cell activity. That response may kill bystander cells, and through a phenomenon called "antigen spreading," may be able to kill other cancer cells that do not exhibit DLL3. (BiTE and CAR-T therapies that target PSMA are  in clinical trials noted at end of this article)

The Wang Lab at Duke has specific expertise in morphological analysis of NEPC and IHC staining for DLL3. It may be a good idea to get a second opinion from them.

Checkpoint blockade

Another recent discovery is that PD-L1 is highly expressed in SCPC. This opens the door to immunotherapies that target the PD-1/PD-L1 pathway, like Keytruda.

PD-L1 expression in small cell neuroendocrine carcinomas

Small clinical trials have so far shown little benefit:



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