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1. Engineered anti-prostate cancer CAR-neutrophils from human pluripotent stem cells

   https://doi.org/10.1016/j.regen.2023.100074  

   Harris, Jackson D.; Chang, Yun; Syahirah, Ramizah; Lian, Xiaojun Lance; Deng, Qing; Bao, Xiaoping (May 2023, Journal of Immunology and Regenerative Medicine)

   Immunotherapy is a powerful technique where immune cells are modified to improve cytotoxicity against cancerous cells to treat cancers that do not respond to surgery, chemotherapy, or radiotherapy. Expressing chimeric antigen receptor (CAR) in immune cells, typically T lymphocytes, is a practical modification that drives an immune response against cancerous tissue. CAR-T efficacy is suboptimal in solid tumors due to the tumor microenvironment (TME) that limits T lymphocyte cytotoxicity. In this study, we demonstrate that neutrophils differentiated from human pluripotent stem cells modified with AAVS1-inserted CAR constructs showed a robust cytotoxic effect against prostate-specific membrane antigen (PSMA) expressing LNCaP cells as a model for prostate cancer in vitro. Our results suggest that engineered CAR can significantly enhance the neutrophil anti-tumor effect, providing a new avenue in treating prostate cancers. 

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2. Abstract 2634: The role of Eph A receptor 3 tyrosine kinase signaling in prostate cancer progression

   https://doi.org/10.1158/1538-7445.AM2019-2634  

   Al-Mathkour, Marwah M.; Cinar, Bekir (July 2019, AACR Annual Meeting 2019)

   Dysregulation of the receptor tyrosine kinases (RTKs) by means of mutation, amplification or overexpression plays a crucial role in cell growth, cell survival, cell motility during cancer progression and metastasis. EPHA3 (erythropoietin-producing hepatocellular carcinoma cell surface type A receptor 3) is a member of the RTKs. Evidence indicates that the upregulation of the EPHA3 activity is implicated in the pathobiology of various cancers, including prostate cancer, and thus, it is a prime therapeutic target in cancer. However, the role of EPHA3 signaling in prostate cancer progression remains obscure. Currently, the development of castration-resistant prostate cancer (CRPC) poses a clinical challenge because it is lethal. The molecular mechanisms that contribute to lethal prostate cancer are largely unknown. The objective of this study is to investigate whether EPHA3 signaling plays a critical role in prostate cancer progression and therapeutic relapse. Our analysis of the prostate cancer public datasets revealed that the EPHA3 gene was amplified up to 19% of metastatic CRPC cases with the neuroendocrine phenotype. Our immunological assay confirmed the positive staining of EPHA3 protein in human prostate cancer specimens. Our semi-quantitative and quantitative PCR assays demonstrated that the levels of EPHA3 vary among established prostate cancer cell lines. Nevertheless, we consistently found that the levels of EPHA3 mRNA in CRPC cell line, C4-2, were 3-fold higher than its castration-sensitive parental LNCaP cells. Furthermore, we demonstrated that an increase in expression of EPHA3 mRNA in C4-2 compared with LNCaP cells coincided with the upregulation of the EPHA3 protein, as independently confirmed by western blotting and immunofluorescence imaging. These findings indicate that EPHA3 may confer an aggressive prostate cancer cell phenotype. Because androgen receptor (AR) signaling is a potent mediator of CRPC cell growth and survival, the targeting of EPHA3 signaling alone or together with AR may improve the efficacy of current therapies for patients with advanced prostate cancer. 

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3. Prostate‐specific membrane antigen‐targeted photoacoustic imaging of prostate cancer in vivo

   https://doi.org/10.1002/jbio.201800021  

   Zhang, Haichong K.; Chen, Ying; Kang, Jeeun; Lisok, Ala; Minn, Il; Pomper, Martin G.; Boctor, Emad M. (June 2018, Journal of Biophotonics)

   A sensitive, noninvasive method to detect localized prostate cancer, particularly for early detection and repetitive study in patients undergoing active surveillance, remains an unmet need. Here, we propose a molecular photoacoustic (PA) imaging approach by targeting the prostate‐specific membrane antigen (PSMA), which is over‐expressed in the vast majority of prostate cancers. We performed spectroscopic PA imaging in an experimental model of prostate cancer, namely, in immunocompromised mice bearing PSMA+ (PC3 PIP) and PSMA− (PC3 flu) tumors through administration of the known PSMA‐targeted fluorescence agent, YC‐27. Differences in contrast between PSMA+ and isogenic control tumors were observed upon PA imaging, with PSMA+ tumors showing higher contrast in average of 66.07‐fold with 5 mice at the 24‐hour postinjection time points. These results were corroborated using standard near‐infrared fluorescence imaging with YC‐27, and the squared correlation between PA and fluorescence intensities was 0.89. Spectroscopic PA imaging is a new molecular imaging modality with sufficient sensitivity for targeting PSMAin vivo, demonstrating the potential applications for other saturable targets relevant to cancer and other disorders. 

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4. Abstract P2386: Androgen Receptor Signaling Promotes YAP1 Nuclear Localization

   Cinar, B: Al-Mathkour; Khan, S. and (January 2019, ASCB-EMBO 2018 Annual Meeting)

   The transcriptional coactivator YAP1 (yes-associated protein 1) is a critical nuclear effector of the Hippo pathway. The serine/threonine protein kinases STK3/4 and LATS1/2, core components of the Hippo pathway, phosphorylate and inhibit YAP1 nuclear localization. Previously, we reported that the interaction of nuclear YAP1 with androgen receptor (AR) might play a critical role in prostate cancer progression and therapeutic relapse (Kuser-Abali et al., Nat. Commun. 2015). Here, we investigated the regulation of YAP1 by androgens in isogenic, androgen-responsive LNCaP and androgen non-responsive C4-2 prostate cancer cell models. We demonstrated that androgen suppressed the inhibitory phospho-Ser127 site on YAP1 in LNCaP cells, but the effects of androgen on phospho-Ser127 was modest in C4-2 cells. In agreement with this observation, androgen increased the presence of nuclear YAP1 in LNCaP cells, whereas regardless of androgen exposure the YAP1 protein was primarily expressed in C4-2 cell nuclei. We also demonstrated that androgen exposure suppressed the levels of phospho-Ser127 induced by okadaic acid, which is a potent inhibitor of the Ser/Thr phosphatases PP1 and PP2A. Moreover, the pharmacological inhibition of androgen receptor (AR) signaling by enzalutamide reversed the inhibitory effects of androgen on phospho-Ser127, which coincided with the inhibition of YAP1 nuclear localization. Similarly, the genetic inhibition of AR signaling by small interfering RNA (siRNA) reduced phospho-Ser127 levels. Additionally, the silencing of the STK3/4 and LATS1/2 signaling by siRNA resulted in increases in YAP1 protein levels. Furthermore, our analysis of the TCGA (The Cancer Genome Atlas) prostate adenocarcinoma data set indicates that the levels of YAP1 and AR mRNA expression were positively correlated in prostate cancer clinical samples. These observations suggest that AR signaling promotes YAP1 nuclear localization by suppressing phospho-Ser127, possibly through the protein phosphatases PP1 and PP2A, and supporting a new mechanism of YAP1 regulation and YAP1-mediated cancer cell growth and survival. 

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5. Development of handheld induction heaters for magnetic fluid hyperthermia applications and in-vitro evaluation on ovarian and prostate cancer cell lines

   https://doi.org/10.1088/2057-1976/acbeaf  

   Castro-Torres, Jorge L.; Méndez, Janet; Torres-Lugo, Madeline; Juan, Eduardo (March 2023, Biomedical Physics & Engineering Express)

   Abstract Objective:Magnetic fluid hyperthermia (MFH) is a still experimental technique found to have a potential application in the treatment of cancer. The method aims to reach around 41 °C–47 °C in the tumor site by exciting magnetic nanoparticles with an externally applied alternating magnetic field (AMF), where cell death is expected to occur. Applying AMFs with high spatial resolution is still a challenge. The AMFs from current and prospective MFH applicators cover relatively large areas; being not suitable for patients having metallic implants near the treatment area. Thus, there will be a clinical need for smaller magnetic field applicators. To this end, a laparoscopic induction heater (LIH) and a transrectal induction heater (TRIH) were developed.Methods:Miniature ‘pancake’ coils were wound and inserted into 3D printed enclosures. Ovarian (SKOV-3, A2780) and prostate (PC-3, LNCaP) cancer cell lines were used to evaluate the instruments’ capabilities in killing cancer cellsin vitro, using Synomag^®-D nanoparticles as the heat mediators. NIH3T3 normal cell lines were also used with both devices to observe if these cells tolerated the conditions applied.Results:Magnetic field intensities reached by the LIH and TRIH were 42.6 kA m⁻¹at 326 kHz and 26.3 kA m⁻¹at 303 kHz, respectively. Temperatures reached in the samples were 41 °C by the LIH and 43 °C by the TRIH. Both instruments successfully accomplished killing cancer cells, with minimal effects on normal cells.Conclusion:This work presents the first line of handheld medical induction heaters and have the potential to be a complement to existing cancer therapies.Significance:These instruments could enable the development of MFH modalities that will facilitate the clinical translation of this thermal treatment. 

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