Prostate Cancer Clinical Trial
Official title:
Hormone Therapy With or Without Definitive Radiotherapy in Metastatic Prostate Cancer
PART I
Hormone therapy with or without definitive radiotherapy in metastatic prostate cancer
The goal of this clinical study PART I is to determine impact of radiotherapy treatment in
combination with standard androgen deprivation therapy comparing with androgen deprivation
therapy alone at controlling metastatic prostate cancer. The primary objective: to determine
disease progression free survival in man with metastatic (M1) prostate cancer (PC) undergoing
androgen deprivation therapy with or without definitive radiotherapy of the primary tumor.The
secondary objective: to determine disease progression (local, bone marrow, visceral) in men
with metastatic prostate cancer (M1PC) undergoing systemic therapy with/without definitive
radiotherapy of the primary tumor, to determine expression in number of genes analysed 8: 2
housekeeping genes; integrin subunits αv, β3, β5, α4β1 ; 3 EMT markers N-cadherin,
E-cadherin, vimentin before radiotherapy, after radiotherapy and at the time of the disease
progression , to determine plasma serotonin (5HT, 5 hydroxytryptamine). Subgroup analysis in
locally advanced prostate cancer (serves as a control group for integrins analysis): to
determine expression in number of genes analysed 8: 2 housekeeping genes; integrin subunits
αv, β3, β5, α4β1 ; 3 epithelial-mesenchymal transition (EMT) markers N-cadherin, E-cadherin,
vimentin before radiotherapy, after radiotherapy and at the time of the disease progression.
PART II
Identification of genetic determinants of disease progression and castrate resistance in
metastatic prostate cancer.
The goal of this clinical study PART II is to assess feasibility of genomic testing in the
multidisciplinary clinical management of metastatic prostate cancer, to gain insight in
specific genomic signature(s) of progressive metastatic prostate cancer in the natural course
of disease spanning from primary tumor to metastases, to test if 'treatment selection' and/or
'treatment adaptation' as means of evolutionary pressures represent the mechanistic models of
castrate resistance and ultimate treatment failure following course of androgen deprivation
therapy (ADT).
PART I
Standard therapy for men presenting with metastatic prostate cancer is initiation of androgen
suppression, whereas radiotherapy or surgery are currently used only in palliative efforts to
relieve symptoms of bleeding, pain, or obstruction. The integration of radiation to the
prostate has not been prospectively explored in the metastatic setting.
Although there is no study evidence on the effect of local therapy on outcomes in metastatic
prostate cancer, there are hypotheses-generating data that support this concept as an
appropriate question to be answered in the context of a randomized trial. Prospective data
show improved outcomes for men with locally advanced prostate cancer undergoing multimodality
therapy with androgen-deprivation therapy (ADT) or radiation therapy (RT) compared to
systemic monotherapy alone . Continuing on the spectrum of the disease, recent data presented
at the 2014 European Society for Medical Oncology Annual Meeting showed improved failure-free
survival in men with clinically positive lymph nodes receiving combination ADT and RT versus
ADT alone.
Several population-based studies have shown improved overall survival in men with metastatic
disease undergoing combination local and systemic therapy versus standard-of-care systemic
therapy alone .
Previous studies showed that initial event at a metastatic site is not the arrival of tumor
cells but rather the clustering of bone marrow-derived cells . This cells make the local
microenvironment of the secondary organ more receptive to tumor cell colonization and are
stimulated by endocrine factors released by the primary tumor . According to this, local
treatment of the primary tumor could postpone the formation and the growth of distant
metastases; metastatic prostate cancer may represent a heterogeneous population and the
impact of local treatment on disease progression on survival might be influenced by primary
tumor characteristics.
Many studies support the importance of integrins in prostate cancer development and
progression by promoting proliferation, invasion and metastasis. Targeting specific integrins
and their matrix interaction may provide a way to prevent metastatic bone prostate cancer.
Serotonin or 5-hydroxytryptamine (5-HT) is a well-known neurotransmitter that mediates a wide
variety of physiological effects. An increase in the number of 5-HT-releasing neuroendocrine
(NE) cells has been correlated with prostate tumor progression. However, it is particularly
unclear whether released 5-HT or the release of 5-HT has a role in tumor cell growth .
Serotonin is a well-known mitogen which mediates a wide variety of physiological effects via
multiple receptors, of which receptor subtype 1 (5-HTR1) has been identified in prostate
cancer (PC) cell lines. Recently, 5-HT has been found to show growth-promoting activity and
to be functionally related to oncogenes .
Previous studies showed that 5-HT stimulated the proliferation of prostate cancer cells
mediated by 5-HT receptors 5-HTR1A and R1B and the secretion system of prostate NE cells is
capable of 5-HT synthesis and metabolism plays a significant role in prostate tumor
generation and progression. These findings are crucial for the development of potential drugs
to slow prostate tumor progression.
PART II
Genomic alternations leading to development of metastasis, treatment resistance and ultimate
disease progression include multistep mutational events on androgen signalling axis, in tumor
suppressor genes and oncogenes and finally DNA repair defects which are currently being
intensively studied using large multinational collaborative efforts (Robinson Cell 2015, PCF
Stand up to Cancer West Coast Dream Team). Despite this growing body of data on biology
behind the different phenotypes of metastatic prostate cancer seen in clinic, little is known
on how discovery of specific gene/pathway involved in multi-step process of disease
progression impact clinical decisions, especially in limited resource setting. Furthermore,
there is a knowledge gap addressing the impact of ADT, which is mainstay of the treatment of
metastatic prostate cancer, on mutational landscape in the context of hormone sensitive
disease. For programs starting to embrace personalised treatment paradigm it is essential to
gain insight how to integrate genomic data in the clinic and even more, to test whether
genomic testing in the course of disease of patient with metastatic prostate cancer is
feasible.
Primary goal of this PART II study is to assess feasibility of genomic testing in the pilot
group of five patients with prostate cancer who develop metastases from the large pool of
patients with prostate cancer followed prospectively in our multidisciplinary clinic.
Secondary goal is to determine level of genomic instability and principal mutational events
in the metastases as opposed to the primary tumor, with addition of differentiating genomic
outlook of metastases before and after emergence of castrate resistant disease.
(i) Aims 1, 2, 3: To assess feasibility of genomic testing in the critical steps in
management of the patient with metastatic prostate cancer and to characterise genomic
signature of progressive metastatic prostate cancer
In prospectively followed cohort of participants with prostate cancer, participants who
develop metastatic disease will be identified, and approached for genomic testing before
initiation of ADT. The investigators plan to characterize the genomics of metastatic prostate
cancer using whole exome sequencing for single nucleotide variations (SNVs), gene
rearrangements (GRs) and copy number variants/alternations (CNVs). Eligible participants are
those who develop measurable and biopsiable metastatic disease (i.e. lymph nodes or bone
lesion) that is detected using classical radiological staging methods (bone scan,
computerized tomography) regardless of underwent primary treatment method (radical
prostatectomy or radiotherapy). DNA will be extracted from archived tissue (formalin-fixed
paraffin embedded - FFPE) for all biological specimens - either in dominant lesion in radical
prostatectomy or diagnostic prostate biopsy and metastasis, using approved protocol for
nucleic acid extraction. Availability of radical prostatectomy specimen and largest
metastasis would allow for significant amounts of tissue for initial whole exome sequencing
(WES) of the primary tumor and metastasis (200x deep sequencing relative to 30x normal blood
DNA sequencing). The plan is to obtain tissue from the same metastasis after onset of
castrate resistance (if clinically available) as well. Bioinformatics analyses will be
performed to obtain panel of genomic changes encompassing whole disease spectrum. The
investigators will then compare all these clonal signals to determine if these metastatic
clones were present in primary tumor at the time of the initial diagnosis, prior to any
treatment and if treatment-resistant clones were present early, before initiation of therapy
for metastatic disease. This will test the concept of treatment (ADT)-induced selection
versus adaptation during a course of ADT and develop novel signatures of SNV, CNV and GRs
within two levels of metastases that have not yet been clearly defined.
(ii) Aim 4, 5: Comparative analysis between DNA profile of primary tumor and metastases, so
this project might augment knowledge on site-specific signature(s) predictive for this
outcome in highly heterogeneous population of prostate cancer patients.
Translational relevance
The results generated from the proposed work might be relevant in the push towards
personalised therapies in prostate cancer patient's management. Currently, there is no
personalized approach in this area as all patients are being treated in the same manner
regardless of underlying biology of the disease. In the case example of metastatic prostate
cancer where ADT is primary treatment modality, there is a potential for clinical utility of
genomic signature that predicts failure to hormonal therapy and gives insight of driving
mutations of disease progression, from primary tumor to metastases. Finally, relevant data
will be gathered on feasibility of genomic testing in the multimodal management of patients
with metastatic prostate cancer for the first time in Croatia. There is also a point of
assessing utility of obtained genetic information for presumable use of targeted therapies
and making treatment decisions in the real-world clinical setting in transitional eastern
European country with emerging pharmaceutical market.
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