Colleen N. Biggs scite author profile

BackgroundExtracellular vesicles released by prostate cancer present in seminal fluid, urine, and blood may represent a non-invasive means to identify and prioritize patients with intermediate risk and high risk of prostate cancer. We hypothesize that enumeration of circulating prostate microparticles (PMPs), a type of extracellular vesicle (EV), can identify patients with Gleason Score≥4+4 prostate cancer (PCa) in a manner independent of PSA.Patients and MethodsPlasmas from healthy volunteers, benign prostatic hyperplasia patients, and PCa patients with various Gleason score patterns were analyzed for PMPs. We used nanoscale flow cytometry to enumerate PMPs which were defined as submicron events (100-1000nm) immunoreactive to anti-PSMA mAb when compared to isotype control labeled samples. Levels of PMPs (counts/μL of plasma) were also compared to CellSearch CTC Subclasses in various PCa metastatic disease subtypes (treatment naïve, castration resistant prostate cancer) and in serially collected plasma sets from patients undergoing radical prostatectomy.ResultsPMP levels in plasma as enumerated by nanoscale flow cytometry are effective in distinguishing PCa patients with Gleason Score≥8 disease, a high-risk prognostic factor, from patients with Gleason Score≤7 PCa, which carries an intermediate risk of PCa recurrence. PMP levels were independent of PSA and significantly decreased after surgical resection of the prostate, demonstrating its prognostic potential for clinical follow-up. CTC subclasses did not decrease after prostatectomy and were not effective in distinguishing localized PCa patients from metastatic PCa patients.ConclusionsPMP enumeration was able to identify patients with Gleason Score ≥8 PCa but not patients with Gleason Score 4+3 PCa, but offers greater confidence than CTC counts in identifying patients with metastatic prostate cancer. CTC Subclass analysis was also not effective for post-prostatectomy follow up and for distinguishing metastatic PCa and localized PCa patients. Nanoscale flow cytometry of PMPs presents an emerging biomarker platform for various stages of prostate cancer.

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Nanoscale flow cytometry to distinguish subpopulations of prostate extracellular vesicles in patient plasma

Padda

Deng

Brett

et al. 2019

The Prostate

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Objective: To determine if prostate-derived extracellular vesicles (EVs) present in patient plasma samples are of exocytotic origin (exosomes) or released by the cell membrane (microparticles/microvesicles). Both malignant and normal prostate cells release two types of EVs into the circulation, exosomes, and microparticles/ microvesicles which differ in size, origin, and mode of release. Determining what proportion of prostate-derived EVs are of exosomal versus microparticle/microvesicle EV subtype is of potential diagnostic significance. Materials and Methods: Multi-parametric analytical platforms such as nanoscale flow cytometry (nFC) were used to analyze prostate derived extracellular vesicles. Plasmas from prostate cancer (PCa) patient plasmas representing benign prostatic hyperplasia (BPH), low grade prostate cancer (Gleason Score 3 + 3) and high grade prostate cancer (Gleason Score ≥4 + 4) were analyzed for various exosome markers (CD9, CD63, CD81) and a prostate specific tissue marker (prostate specific membrane antigen/ PSMA). Results: By using nanoscale flow cytometry, we determine that prostate derived EVs are primarily of cell membrane origin, microparticles/microvesicles, and not all PSMA expressing EVs co-express exosomal markers such as CD9, CD63, and CD81. CD9 was the most abundant exosomal marker on prostate derived EVs (12-19%). There was no trend observed in terms of more PSMA + CD9 or PSMA + CD63 co-expressing EVs versus increasing grade of prostate cancer. Conclusion: The majority of prostate derived EVs present in plasmas are from the cell membrane as evidenced by their size and most importantly, lack of co-expression of exosomal markers such as CD9/CD63/CD81. In fact, CD81 was not present on any prostate derived EVs in patient plasmas whereas CD9 was present on a minority of prostate derived EVs. The addition of an exosomal marker for detection of prostatederived EVs does not provide greater clarity in distinguishing EVs released by the prostate. K E Y W O R D S benign prostatic hyperplasia, CD63, CD9, exosomes, extracellular vesicles, nanoscale flow cytometry, prostate cancer, PSMA SINGH ET AL. | 3 593

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Extracellular vesicles such as prostate cancer cell fragments as a fluid biopsy for prostate cancer

Brett

Kim

Biggs

et al. 2015

Prostate Cancer Prostatic Dis

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Extracellular vesicles (EVs) are cell-derived vesicles generated through a process of cell membrane shedding or storage vesicle release, as occurs during apoptosis, necrosis or exocytosis. Initially perceived as cellular by-products or 'dust' of insignificant biological importance, recent research has shed light on the role of EVs as mediators of intercellular communication, blood coagulation and disease progression. The prostate is a source of EVs and their abundance in complex biological fluids such as plasma, serum and urine make them compelling entities for a 'fluid biopsy'. As such, prostate cancer cell fragments (PCCF) are EVs generated by the tumor resident within the prostate and are also present in blood, expressing a portion of biomarkers representative of the primary tumor. High-throughput analytical techniques to determine biomarker expression on EVs is the last hurdle towards translating the full potential of prostate EVs for clinical use. We describe current state-of-the-art methods for the analysis of prostate-derived EVs in patient fluids such as plasma and the challenges that lie ahead in this emerging field of translational research.

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Mp74-16 Enumeration of Prostate Cancer Microparticles as a Tool to Identify Prostate Cancer

Siddiqui¹,

Biggs²,

Billia³

et al. 2014

Journal of Urology

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Colleen N. Biggs

Prostate extracellular vesicles in patient plasma as a liquid biopsy platform for prostate cancer using nanoscale flow cytometry

Nanoscale flow cytometry to distinguish subpopulations of prostate extracellular vesicles in patient plasma

Extracellular vesicles such as prostate cancer cell fragments as a fluid biopsy for prostate cancer

Mp74-16 Enumeration of Prostate Cancer Microparticles as a Tool to Identify Prostate Cancer

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