Expression Of Prostatic Acid Phosphatase Research Articles

7323 Prostatic Acid Phosphatase Is Negatively Regulated by Androgens and Persists in Castration-resistant Prostate Cancer

Abstract Disclosure: A. Kirschenbaum: None. P. Cheung: None. S. Yao: None. P. Cheung: None. Background: Prostate cancer (PCa) is the most common cancer and second leading cause of cancer death in American men. Most patients with metastatic PCa respond initially to androgen deprivation therapy (ADT) but the majority will progress to lethal, metastatic, castrate-resistant PCa (mCRPC). The identification of markers of mCRPC that are not regulated or negatively regulated by androgens can serve as markers and therapeutic targets in mCRPC. We hypothesized that prostatic acid phosphatase (PAP), a protein phosphatase and 5’ectonucleotidase that is expressed in both the cytoplasm and transmembrane (TM-PAP) of PCa cells, is negatively regulated by androgen signaling and can serve as a therapeutic target. Methods: PAP protein expression was assessed by immunohistochemistry (IHC) in PCa cell line spheroids (VCaP, 22Rv1, LNCaP, C42B) +/- androgen addition as well as in LNCaP s.c. xenografts +/- castration. Protein expression of PAP was assessed with western blotting in PCa cell lines after treatment with androgens (DHT) and anti-androgen (enzalutamide). Results: In spheroids derived from PCa cell lines, there is some IHC expression of PAP with the strongest staining in VCaP and 22Rv1 spheroids. DHT decreased PAP IHC expression in all spheroids. LNCaP and VCaP s.c. xenografts demonstrated that castration decreased tumor growth rates but that in castrate as well as control tumors PAP expression persisted. All forms of PAP including TM-PAP are expressed in VCaP cell line and were negatively regulated by androgen addition. Conclusions: The identification of markers of mCRPC that are not regulated or are negatively regulated by androgen could help identify recalcitrant tumor cells and mount targeted delivery of therapeutic agents. In several androgen sensitive PCa cell lines, DHT addition decreased PAP expression in spheroids. In vivo, PAP expression persists after castration in spite of decreases in tumor growth rates. Finally, DHT decreases and enzalutamide restores PAP expression in vitro. These data demonstrate that PAP is a more progenitor cell marker in PCa that persists after castration and may be targeted in castration-resistant disease. Presentation: 6/3/2024

THU544 Prostatic Acid Phosphatase Is Negatively Regulated By Androgens And Persists In Castrate-resistant Metastatic Prostate Cancer

Abstract Disclosure: V. Rajagopalan: None. A. Kirschenbaum: None. S. Yao: None. A. Levine: None. Abstract: Prostate cancer (PCa) is the most common cancer and second leading cause of cancer death in American men. Most patients with metastatic PCa respond initially to androgen deprivation therapy (ADT) but the majority will progress to lethal, metastatic, castrate-resistant PCa (mCRPC). The identification of markers of mCRPC that are not regulated or negatively regulated by androgens can serve as markers and therapeutic targets in mCRPC. We hypothesized that prostatic acid phosphatase (PAP), a protein phosphatase and 5’ectonucleotidase that is expressed in both the cytoplasm and transmembrane (TM-PAP) of PCa cells, is negatively regulated by androgen signaling and can serve as a therapeutic target. Methods: Protein expression of PAP was assessed with western blotting in PCa cell lines. TM-PAP is identified by sub-cellular fractionation analysis, confocal microscopy, and flow cytometry. Effects of androgens and anti-androgens on PAP expression were assessed in VCaP cells with dihydrotestosterone (DHT) and Enzalutamide treatment followed by PAP, AR and PSA protein expression determined with Western Blotting. Loss of function analysis of PAP was performed with siRNA-mediated silencing and functional analysis was evaluated with migration and colony formation assays. Transcriptional regulation of PAP was determined by real time qPCR analysis. ChiPseq was done to confirm the binding of AR to PAP promoter. Results: All forms of PAP including TM-PAP are expressed in VCaP cell line. However, we did not detect PAP protein expression in-vitro in the LNCaP, C42B or 22Rv1 cell lines. In VCaP cell lines, we demonstrated that androgens decreased while anti-androgens increased PAP expression in a time and dose dependent fashion. Androgenic regulation of PAP occurred, at least in part, at the transcriptional level. We successfully knocked down TM and secretory PAP expression in VCaP cells using siRNA technology and showed that loss of PAP decreased migration and colony formation. Conclusions: The identification of markers of mCRPC that not regulated or negatively regulated by androgen could help identify recalcitrant tumor cells and mount targeted delivery of therapeutic agents. In the VCaP cell line, derived from a patient with mCRPC, TM and cytosolic PAP is one such protein that is negatively regulated by androgen signaling and may therefore serve as a viable therapeutic target in mCRPC. Presentation: Thursday, June 15, 2023

Electroacupuncture relieves neuropathic pain by inhibiting degradation of the ecto-nucleotidase PAP in the dorsal root ganglions of CCI mice.

Although electroacupuncture is widely used in chronic pain management, it is quite controversial due to its unclear mechanism. We hypothesised that EA alleviates pain by inhibiting degradation of the ecto-nucleotidase prostatic acid phosphatase (PAP) and facilitating ATP dephosphorylation in dorsal root ganglions (DRGs). We applied EA in male C57 mice subjected to chronic constriction injury (CCI) and assessed extracellular ATP and 5'-nucleotidease expression in DRGs. Specifically, we used a luminescence assay, quantitative reverse transcriptase-polymerase chain reaction, Western blotting, immunohistochemistry and nociceptive-related behavioural changes to gather data, and we tested for effects after PAP expression was inhibited with an adeno-associated virus (AAV). Moreover, membrane PAP degradation was investigated in cultured DRG neurons and the inhibitory effects of EA on this degradation were assessed using immunoprecipitation. EA treatment alleviated CCI surgery-induced mechanical pain hypersensitivity. Furthermore, extracellular ATP decreased significantly in both the DRGs and dorsal horn of EA-treated mice. PAP protein but not mRNA increased in L4-L5 DRGs, and inhibition of PAP expression via AAV microinjection reversed the analgesic effect of EA. Membrane PAP degradation occurred through a clathrin-mediated endocytosis pathway in cultured DRG neurons; EA treatment inhibited the phosphorylation of adaptor protein complex 2, which subsequently reduced the endocytosis of membrane PAP. EA treatment alleviated peripheral nerve injury-induced mechanical pain hypersensitivity in mice by inhibiting membrane PAP degradation via reduced endocytosis and subsequently promote ATP dephosphorylation in DRGs. In a mouse model of chronic pain, electroacupuncture treatment increased levels of prostatic acid phosphatase (PAP: an ecto-nucleotidase known to relieve pain hypersensitivity) by inhibiting PAP degradation in dorsal root ganglions. This promoted extracellular ATP dephosphorylation, inhibited glia activation and eventually alleviated peripheral nerve injury-induced mechanical pain hypersensitivity in mice. Our findings represent an important step forward in clarifying the mechanisms of pain relief afforded by acupuncture treatment.

Prostatic Acid Phosphatase Is a Progenitor Cell Marker That Persists After Androgen Ablation

Introduction: Prostatic Acid Phosphatase (PAP), a protein phosphatase and 5’ecto-nucleotidase, is expressed in prostate cancer (PCa) bone metastases and correlates with poor survival. Growing evidence suggests that PAP is not regulated by androgens, but rather by factors in the tumor microenvironment.Hypothesis: We hypothesized that PAP is a marker for a more progenitor type PCa cell and its expression is androgen-independent, persisting in castration-resistant disease.Methods: Protein expression of PAP and three androgen-regulated proteins, the Androgen Receptor (AR), Prostate-Specific Antigen (PSA), and ETS-related gene (ERG) protein, was assessed with immunohistochemistry in human fetal prostate (9.5 - 20 weeks of gestational age), archival human PCa bone metastases, and human PCa cell lines. VCaP cells were treated in vitro with dihydrotestosterone (DHT) and the effects on AR and PAP protein expression determined with Western Blotting. PAP-expressing PCa cell lines (LNCaP, C42B, and VCaP) were inoculated subcutaneously (s.c.) into SCID mice. To model tumor-bone interaction, LNCaP and MC3T3 osteoblast cells were co-inoculated s.c. into SCID mice. A VCaP castration study with surgical or sham castration was performed after tumors were palpable and effects of castration on tumor growth and protein expression determined.Results: PAP expression was observed in the fetal prostate as early as 11.5 weeks of gestational age prior to PSA and AR expression. Strong PAP expression was noted in all human PCa bone metastases examined, both treatment-naive and castrate-resistant (n=10). In vitro, VCaP cells expressed high levels of AR and PAP protein and DHT treatment increased AR and decreased PAP protein expression. In vivo, PAP expression was observed in all tumor models; LNCaP (low PAP expression), C42B (moderate PAP expression) and VCaP (high PAP expression). Castrated VCaP tumors underwent tumor stasis, were significantly smaller compared to intact mice, had decreased AR, PSA and ERG expression but persistent expression of PAP. Double staining of tumors for PAP and AR demonstrated a population of cells that were positive for PAP but negative for AR expression in hypoxic areas near necrosis. Inoculation of LNCaP cells with MC3T3 osteoblastic cells increased PAP expression in vivo.Conclusions: PAP is expressed early in human fetal prostate development prior to the secretion of significant androgens or expression of AR. In mouse xenograft tumors and human PCa bone metastases, androgens did not significantly regulate PAP expression. Both hypoxia and stroma increased PAP expression. These data demonstrate that PAP is a marker of early progenitor cells, is persistently expressed after castration and is upregulated by tumor microenvironmental factors. PAP may be a suitable target for the treatment of castration-resistant metastatic disease.

Electroacupuncture Relieves Neuropathic Pain by Inhibiting Degradation of the Ecto-Nucleotidase PAP in the Dorsal Root Ganglions of CCI Mice

Electroacupuncture (EA) is an effective treatment for relieving neuropathic pain, however, its underlying effect mechanisms remain unclear. We hypothesised that EA alleviates pain by inhibiting degradation of the ecto-nucleotidase prostatic acid phosphatase (PAP) and facilitating ATP dephosphorylation in dorsal root ganglions (DRGs). To test this, we applied EA in male C57 mice subjected to chronic constriction injury (CCI) and assessed extracellular ATP and 5′-nucleotidease expression in DRGs. Specifically, we used a luminescence assay, quantitative reverse transcriptase–polymerase chain reaction, western blotting, immunohistochemistry and nociceptive-related behavioural changes to gather data, and we tested for effects after PAP expression was inhibited with an adeno-associated virus (AAV). Moreover, membrane PAP degradation was investigated in cultured DRG neurons and the inhibitory effects of EA on this degradation were assessed using immunoprecipitation. EA treatment alleviated CCI surgery induced mechanical allodynia. Furthermore, extracellular ATP decreased significantly in both the DRGs and dorsal horn of EA-treated mice. PAP protein but not mRNA increased in L4–L6 DRGs, and inhibition of PAP expression via AAV microinjection reversed the analgesic effect of EA. Membrane PAP degradation occurred through a clathrin-mediated endocytosis pathway in cultured DRG neurons; EA treatment inhibited the phosphorylation of adaptor protein complex 2, which subsequently reduced the endocytosis of membrane PAP. In summary, EA treatment alleviated peripheral nerve injury-induced tactile allodynia in mice by inhibiting membrane PAP degradation via reduced endocytosis and subsequently promote ATP dephosphorylation in DRGs. Our findings provide new insights into the underlying mechanisms of pain relief provided by acupuncture. Funding Statement: This study was supported by grants from the National Natural Science Foundation of China 414 (Nos. 81874371, 81803853, 81771133, 81970995), Shanghai Shenkang Hospital Development Center Founding (SHDC12017X11), and Shanghai municipal Education Commission-Gaofeng Clinical Medicine Support [20191903], Shanghai Municipal Key Clinical Specialty (shslczdzk03601)，State Key Laboratoy of Neuroscience(SKLN-201803). Declaration of Interests: The authors have declared that no competing interests exist regarding the publication of this paper. Ethics Approval Statement: All of the experiments were approved by the Animal Care and Use Committee of Renji Hospital, Shanghai Jiao Tong University School of Medicine, and all protocols followed the policies issued by the National Institutes of Health and the International Association for the Study of Pain.

NKX3.1 expression in cervical ‘adenoid basal cell carcinoma’: another gynaecological lesion with prostatic differentiation?

Adenoid basal cell carcinoma (ABC) is considered a rare cervical neoplasm which when present in 'pure' form, uniquely amongst apparently malignant cervical tumours, has never been reported to metastasise or lead to fatal patient outcome. We recently encountered a case of ABC that was morphologically reminiscent of prostatic differentiation, more specifically basal cell hyperplasia of the prostate. Immunohistochemistry was strongly positive for the prostate related marker NKX3.1 in the glandular cells, but there was no expression of prostate specific antigen (PSA) or prostatic acid phosphatase (PAP). However, subsequent review of five additional cervical ABCs demonstrated focal PAP expression in two of four tested cases, and all were NKX3.1 positive. NKX3.1 expression was also demonstrated in the glandular epithelium of 10 additional gynaecological lesions considered to show prostatic differentiation including five cases of cervical ectopic prostatic tissue, three ovarian teratomas with prostatic differentiation, and two vaginal tubulosquamous polyps. We suggest that some lesions traditionally classified as ABC may in fact represent a variant of prostatic differentiation within the cervix, possibly analogous to basal cell hyperplasia of the prostate.

SUN-143 Prostatic Acid Phosphatase Is Not Regulated by Androgens During Prostate Development and Tumorigenesis

INTRODUCTION: Prostatic acid phosphatase (PAP) is a soluble factor secreted by prostate luminal epithelial cells. PAP expression correlates with prostate cancer (PCa) bone metastases and poor survival. The androgenic regulation of PAP in prostate development and tumorigenesis is not fully understood. We investigated the relationship between PAP and androgens in human prostate specimens and in vivo. HYPOTHESIS AND OBJECTIVES: We hypothesized that PAP expression was independent of androgens. Our objectives were to determine the immunohistochemical expression of PAP in human fetal prostate tissue, human PCa bone metastases, and xenograft and surgical castration mouse models. METHODS: Immunohistochemical staining for PAP and three androgen-regulated proteins, the Androgen Receptor (AR), Prostate-Specific Antigen (PSA), and ETS-related gene (ERG) protein, was carried out on human fetal prostate (9.5, 11.5, 13, 16.5, 18 and 20 weeks of gestational age), archival human PCa bone metastases, and PCa mouse models. For xenograft studies, PAP-expressing PCa cell lines, LNCaP, C42B, and VCaP cells, were inoculated subcutaneously into SCID mice. A castration study with surgical or sham castration was performed after VCaP tumors were palpable. Mouse tumor growth and weight were measured biweekly, and tumor tissue isolated after mouse sacrifice. RESULTS: PAP expression was observed in the fetal prostate as early as 11.5 weeks of gestational age. Strong PAP expression was noted in all human PCa bone metastases examined, both treatment-naive and castrate-resistant (n=10). However, AR and ERG expression was absent in two of four castrate-resistant specimens. PSA was weakly expressed in human castration-resistant bone metastatic prostate specimens. In vivo, PAP expression was observed in all tumor models; however, the expression of PAP differed among androgen-sensitive models; LNCaP (low PAP), C42B (moderate PAP) and VCaP (high PAP). Castrated VCaP tumors underwent tumor stasis and were significantly smaller compared to intact mice. Strong expression of PAP was observed after castration. In contrast, AR, PSA, and ERG expression were reduced in castrated VCaP tumors compared to tumors from intact mice. Double staining of tumors for PAP and AR demonstrated a population of cells that were positive for PAP but negative for AR expression located in hypoxic areas near necrosis. CONCLUSIONS: Our findings demonstrated that PAP is expressed early in normal human fetal prostate development prior to the secretion of significant androgens or expression of AR. In mouse xenografts and human PCa bone metastases, androgens did not significantly regulate PAP expression. These data demonstrate that PAP is a marker of early progenitor cells in the normal prostate and is persistently expressed after castration. PAP may be a suitable target for the treatment of castration-resistant metastatic disease.

Notch signalling is a potential resistance mechanism of progenitor cells within patient-derived prostate cultures following ROS-inducing treatments.

Low Temperature Plasma (LTP) generates reactive oxygen and nitrogen species, causing cell death, similarly to radiation. Radiation resistance results in tumour recurrence, however mechanisms of LTP resistance are unknown. LTP was applied to patient‐derived prostate epithelial cells and gene expression assessed. A typical global oxidative response (AP‐1 and Nrf2 signalling) was induced, whereas Notch signalling was activated exclusively in progenitor cells. Notch inhibition induced expression of prostatic acid phosphatase (PAP), a marker of prostate epithelial cell differentiation, whilst reducing colony forming ability and preventing tumour formation. Therefore, if LTP is to be progressed as a novel treatment for prostate cancer, combination treatments should be considered in the context of cellular heterogeneity and existence of cell type‐specific resistance mechanisms.

SAT-328 Androgens Modulate the Expression of Prostatic Acid Phosphatase

INTRODUCTION: Prostatic acid phosphatase (PAP) is an acid phosphatase synthesized in prostate epithelial cells that served as the biochemical diagnostic mainstay for prostate cancer for several decades. There are two forms of PAP, secretory(sPAP) and transmembrane (TM-PAP), that are derived from alternative transcripts of the gene. PAP is highly expressed by epithelial cells of the adult prostate, however, the androgenic regulation of prostatic acid phosphatase is not well understood. HYPOTHESIS AND OBJECTIVES: We hypothesized that androgens do not increase PAP expression. Our objectives were to determine the immunohistochemical expression of PAP in human fetal prostate tissue, human bone metastases, and intact and castrated xenograft tumors of human VCaP prostate cancer cells. In addition, the effects of dihydrotestosterone (DHT) onTM- and sPAP expression in vitro were quantified. METHODS: Immunohistochemical staining for PAP, androgen receptor (AR) and Prostate Specific Antigen (PSA) protein expression was carried out on human fetal prostate (9.5, 11.5, 13, 16.5 and 18 weeks of gestational age) and human castration-resistant prostate cancer bone metastases archival specimens obtained with IRB approval. Tissue from human benign prostate and breast cancer metastases were used as controls. For xenograft studies, VCaP cells were inoculated subcutaneously into SCID mice and surgical or sham castration was performed after tumor development. Mouse tumors and weights were measured biweekly and tumor tissue isolated after mouse sacrifice. Isolated tumors were stained for PAP, AR and PSA. RESULTS: PAP expression was an early marker of prostate development and observed in the fetal prostate as early as 11.5 weeks of gestational age. Strong PAP expression was observed in all human castration-resistant prostate cancer bone metastases examined (4/4 specimens). The AR was absent in two of four specimens. PSA was expressed in human castration-resistant bone metastatic prostate specimens; however, the expression was not as strong as PAP. In vivo, castrated VCaP tumors underwent tumor stasis and were significantly smaller compared to intact animals but increased PAP expression was noted after castration. In contrast, PSA and AR expression was reduced in castrated VCaP tumors compared to tumors from intact mice. DHT treatment of VCaP cells increased AR expression while decreasing both sPAP and TM-PAP at doses ranging from 10-7-10-14M for 24 h. CONCLUSIONS: Our findings demonstrate that PAP is expressed early in normal human fetal prostate development and may be a marker of the early stages of differentiation. DHT decreased the expression of both isoforms of PAP in vitro and castration increased PAP expression in vivo. TM-PAP may serve as a potential target for castration-resistant prostate cancer as its expression increases with castration.

Prostatic Acid Phosphatase Alters the RANKL/OPG System and Induces Osteoblastic Prostate Cancer Bone Metastases.

Prostate cancer (PCa) is unique in its tendency to produce osteoblastic (OB) bone metastases. There are no existing therapies that specifically target the OB phase that affects 90% of men with bone metastatic disease. Prostatic acid phosphatase (PAP) is secreted by PCa cells in OB metastases and increases OB growth, differentiation, and bone mineralization. The purpose of this study was to investigate whether PAP effects on OB bone metastases are mediated by autocrine and/or paracrine alterations in the receptor activator of nuclear factor κ-B (RANK)/RANK ligand (RANKL)/osteoprotegerin (OPG) system. To investigate whether PAP modulated these factors and altered the bone reaction, we knocked down PAP expression in VCaP cells and stably overexpressed PAP in PC3M cells, both derived from human PCa bone metastases. We show that knockdown of PAP in VCaP cells decreased OPG while increasing RANK/RANKL expression. Forced overexpression of PAP in PC3M cells had the inverse effect, increasing OPG while decreasing RANK/RANKL expression. Coculture of PCa cells with MC3T3 preosteoblasts also revealed a role for secretory PAP in OB-PCa cross talk. Reduced PAP expression in VCaP cells decreased MC3T3 proliferation and differentiation and reduced their OPG expression. PAP overexpression in PC3M cells altered the bone phenotype creating OB rather than osteolytic lesions in vivo using an intratibial model. These findings demonstrate that PAP secreted by PCa cells in OB bone metastases increases OPG and plays a critical role in the vicious cross talk between cancer and bone cells. These data suggest that inhibition of secretory PAP may be an effective strategy for PCa OB bone lesions.

Expression of Prostatic Acid Phosphatase in Rat Circumvallate Papillae.

ATP and its metabolites are important for taste signaling in taste buds, and thus a clearance system for them would play critical roles in maintenance of gustatory function. A previous report revealed that mRNAs for ecto-5′-nucleotidase (NT5E) and prostatic acid phosphatase (PAP) were expressed by taste cells of taste buds, and NT5E-immunoreactivity was detected in taste cells. However, there was no information on PAP-immunoreactivity in taste buds. In this study, we examined the expression profile of PAP in rat taste buds. In the isolated rat taste buds, we detected expression of mRNA for PAP, but NT5E was not detected differing from the case of mouse ones (Dando et al., 2012, J Neuroscience). On immunohistochemical analysis, PAP-immunoreactivity was found predominantly in NTPDase2-positive type I and SNAP25-positive type III taste cells, while there were no apparent signals of it in PLC-β2-positive type II, α-gustducin-positive type II, AADC-positive type III and 5HT-positive type III ones. As for NT5E, we could not detect its immunoreactivity in rat taste buds, and co-localization of it with any taste cell markers, although mouse taste buds expressed NT5E as reported previously. These findings suggest that PAP expressed by type I and one of type III taste cells of rats may contribute to metabolic regulation of the extracellular levels of adenine nucleotides in the taste buds of circumvallate papillae, and the regulating mechanisms for adenine nucleotides in taste buds might be different between rats and mice.

Effect of nitrogen deficiency on recombinant protein production and dimerization and growth in transgenic plants

This study investigated the effects of nitrogen (NH4+) in the soil on the expression of prostatic acid phosphatase (PAP)-IgA Fc and PAP-IgA FcK recombinant proteins in transgenic plants, and on plant growth in the greenhouse. Plant height and leaf length were greater in soil A (NH4+: 51 mg·L-1) than in soil B (NH4+: 1 mg·L-1). In soil B, the plant leaves turned yellow, with chlorophyll concentrations that were significantly lower than the chlorophyll concentration of leaves from plants grown in soil A. The expression level of the PAP-IgA Fc and PAP-IgA FcK proteins and the protein dimerization rates were lower in soil B when compared with soil A. In addition, PAP-IgA Fc and PAP-IgA FcK expression and dimerization levels were significantly lower in transgenic plants grown in soil B, when compared with transgenic plants grown in soil A. Soil characteristics such as hydrogen ion concentration (pH), electric conductivity (EC), and bulk density did not differ between soil A and B. Thus, appropriate soil NH4+ concentrations are essential for optimized plant growth and enhanced expression of dimerized PAP-IgA Fc and PAP-IgA FcK recombinant proteins in transgenic plants.

Dietary cholesterol affects expression of prostatic acid phosphatase in reproductive organs of male rats

Cholesterol homeostasis is strictly maintained to prevent abnormal biological processes that arise from excessive accumulation of cholesterol in tissues. Although dyslipidemia causes reproductive dysfunction and endocrine disruption in male rats, regulatory factors and mechanisms have not been clearly demonstrated. Therefore, the present study investigated the histology of male reproductive organs and the expression of prostatic acid phosphatase (also known as Acpp) that is secreted by cuboidal epithelium of the prostate gland in response to a normal diet and a high-cholesterol diet. The high cholesterol diet increased total cholesterol and low density lipoprotein (LDL) levels and decreased high density lipoprotein (HDL) levels. Histological analyses showed considerable alterations in the prostate indicating excessive papillary projections within the acinar lumen in response to the high cholesterol diet. In addition, Acpp expression was decreased in the penis of rats fed the high cholesterol diet and it was predominantly localized in the urethral epithelium and penile follicle that is precursor of penile spines. Moreover, Acpp was reduced slightly in the testes, but differential expression of Acpp in the prostate in response to dietary cholesterol was not detected. Furthermore, target microRNAs (miRs) of Acpp such as miR-192 and miR-215 regulated Acpp gene expression at the post-transcriptional levels by binding to specific sites within its 3′-UTR. These results indicate that Acpp plays an important role in growth and development of the penis of rats, and its expression is modulated at epigenomic levels via specific miRs.

Antinociceptive Effect of Prostatic Acid Phosphatase in a Rat Model of Cancer-induced Bone Pain

Background: Cancer-induced bone pain (CIBP) is a severe chronic pain that is less than adequately controlled by conventional analgesics. Prostatic acid phosphatase (PAP) has been considered as a diagnostic marker for prostate cancer and its transmembrane isoform has been reported to play an antinociceptive effect in neuropathic and inflammatory pain. However, it remains unknown whether it has an analgesic effect on CIBP and what are the underlying mechanisms. Objective: In the present study, we tested whether PAP could alleviate the pain symptoms induced by bone cancer in a rat model. Study Design: A randomized, double blind, and controlled rat animal trial. Methods: We first established a rat CIBP model and observed the spinal expression of PAP by immunofluorescence histochemistry and Western blot. Then, PAP (0.1, 0.3, or 1 μg) was intrathecally administered in the CIBP rats in a repeated manner from 15 to 18 days (once per day) after inoculation of tumor cells. On postoperative day (POD) 18, the mechanical paw withdrawal threshold was tested for checking the dose-effect curve and ED50 of the antinociceptive effect of PAP. In an another test, a single dose of ED50 of PAP was intrathecally injected on POD 15 to observe the time course of its effect. Furthermore, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) (3 mg/kg), an adenosine A1 receptor antagonist, or dipyridamole (DIP) (10 μg), a nucleoside transporter inhibitor, was administered to the CIBP rats for exploring the analgesic mechanisms of PAP. The concentration of extracellular adenosine was also detected by microdialysis method after intrathecal injection of PAP (0.57 μg) and DIP (10 μg) in the CIBP rats. Finally, an in vivo electrophysiological study of the CIBP rats was performed to observe whether the electrically evoked response of spinal wide-dynamic-range (WDR) neurons could be affected by PAP (0.57 μg), DIP (10 μg), or DPCPX (10 μg). Results: The expression of PAP in the spinal dorsal horn was significantly reduced in the CIBP rats, and intrathecal injection of PAP dose-dependently attenuated CIBP-induced mechanical allodynia via the adenosine A1 receptor. Simultaneously, intrathecal injection of PAP increased the extracellular concentration of spinal adenosine in the CIBP rats, as well as inhibited the neuronal responses of WDR neurons in deep layers within the spinal dorsal horn through the adenosine A1 receptor. Finally, the analgesic effect of PAP was potentiated by DIP, the nucleoside transporter inhibitor. Limitations: It’s not clear whether PAP’s antinociceptive effect is mediated by other signaling molecules besides the adenosine A1 receptor. In addition, the long-term antinociceptive effect of intrathecal PAP is still not clear. Conclusions: Our study demonstrated that PAP was involved in the maintenance of CIBP and could effectively suppress central sensitization by increasing spinal extracellular adenosine concentrations to exert a significant antinociceptive effect via the adenosine A1 receptor in CIBP rats. Therefore, our experiments suggest that the endogenous enzyme PAP may be a promising candidate for CIBP treatment. Key words: Cancer-induced bone pain, prostatic acid phosphatase, adenosine, allodynia, spinal dorsal horn, rat

Human prostatic acid phosphatase: structure, function and regulation.

Human prostatic acid phosphatase (PAcP) is a 100 kDa glycoprotein composed of two subunits. Recent advances demonstrate that cellular PAcP (cPAcP) functions as a protein tyrosine phosphatase by dephosphorylating ErbB-2/Neu/HER-2 at the phosphotyrosine residues in prostate cancer (PCa) cells, which results in reduced tumorigenicity. Further, the interaction of cPAcP and ErbB-2 regulates androgen sensitivity of PCa cells. Knockdown of cPAcP expression allows androgen-sensitive PCa cells to develop the castration-resistant phenotype, where cells proliferate under an androgen-reduced condition. Thus, cPAcP has a significant influence on PCa cell growth. Interestingly, promoter analysis suggests that PAcP expression can be regulated by NF-κB, via a novel binding sequence in an androgen-independent manner. Further understanding of PAcP function and regulation of expression will have a significant impact on understanding PCa progression and therapy.

Differentiated prostatic antigen expression in LNCaP cells following treatment with bispecific antisense oligonucleotides directed against BCL-2 and EGFR

Antisense oligonucleotides (oligos) have been administered against in vivo and in vitro prostate cancer models employing LNCaP and PC-3 cell lines. While most oligos consist of a single mRNA binding site targeting a single gene product or those with sequence homology, our lab has developed bispecific oligos directed toward two unrelated proteins. In LNCaP cells, we initially identified bispecifics that increased the expression of prostate-specific membrane antigen (PSMA) while not affecting secreted prostate-specific antigen (PSA). We postulated that surface antigen expression is increased by bispecifics able to form double-stranded regions, acting as interferon (IFN-γ) inducers. In other systems, when induced, IFN-γ promotes cell surface antigen expression, including HLA and receptors for tumor necrosis factor. To test this hypothesis, we measured the effect of oligo treatment on both IFN-γ induction and the expression of another secreted product of differentiated prostate cells, prostatic acid phosphatase (PAP). This study initially evaluated the inhibition of in vitro propagating LNCaP cells employing mono- and bispecific oligos directed against bcl-2 (the second bispecific binding site was against the epidermal growth factor receptor). Employing RT-PCR, the expression of non-targeted proteins encoded by mRNA for PSMA, PSA, PAP, and IFN-γ was subsequently valuated. When LNCaP prostate tumor cells were incubated with oligos and compared to lipofectin-containing controls significant growth inhibition resulted. Employing RT-PCR, the levels of mRNA encoding PSMA were unexpectedly found to be elevated following treatment with the bispecific oligos but not with a monospecific directed solely against bcl-2. No differences were detected in mRNA levels encoding PSA following treatment with either oligo type. IFN-γ was significantly induced only by bispecific oligos, and PAP expression was similar to PSA. These data support the hypothesis that double strand-forming bispecific oligos induce IFN-γ that enhances cell surface PSMA expression. Expression of tumor-associated surface antigens could increase their recognition and targeting by immunologic defense mechanisms and increase the effectiveness of tumor vaccines.

Cutaneous metastasis of prostatic adenocarcinoma: a cautionary tale

With the exception of skin cancer, prostatic adenocarcinoma represents the most common cancer among men in the United States and the second most common cause of cancer mortality. Mortality is often associated with metastatic disease, which in the case of prostatic adenocarcinoma typically involves bones and only rarely affects the skin. Although clinical history and examination, laboratory tests and routine pathology can suggest the prostate as a source of metastatic disease, immunohistochemistry - specifically, for prostate-specific antigen (PSA) - is often used to help establish the diagnosis. We report a case of cutaneous metastatic prostatic adenocarcinoma presenting in the inguinal region of a 78-year-old man 5 years after his initial diagnosis. The case is unusual in that the clinical appearance mimicked a vascular proliferation and in that the metastatic prostatic adenocarcinoma failed to express PSA. Rather, expression of prostatic acid phosphatase was observed.

Prostatic acid phosphatase expression in human tissues

Abstract Introduction: Active cellular immunotherapy seeks to induce tumor-specific immunity in the patient and is consequently dependent on a suitable target tumor antigen. Sipuleucel-T is an autologous cellular immunotherapy that targets prostatic acid phosphatase (PAP), and has demonstrated evidence of survival prolongation in men with asymptomatic or minimally symptomatic metastatic castrate resistant prostate cancer in randomized clinical trials. PAP has been tested as a target antigen due to its high, and relatively specific, expression in the prostate. PAP expression in other human tissues was examined to help anticipate potential safety concerns associated with the development of immunity in this target. Methods: We used a variety of approaches to analyze PAP expression, including immunohistochemistry, in situ hybridization, and quantitative polymerase chain reaction. These laboratory-based techniques were complemented with an in silico analysis of reported PAP expression in human cDNA libraries. Results: Our studies confirmed that, while PAP expression is not restricted to prostate tissues, its expression in other human tissues is approx. 1 to 2 orders of magnitude less than that observed in the prostate. Conclusion: The relative specificity of PAP expression in prostate tissues supports its use in immunotherapies targeting prostate carcinoma. A greater knowledge of the expression of immunotherapy targets through a range of human cancers will better define appropriate clinical settings for their use; detailed assessment of their normal tissue distribution will aid the design of future clinical protocols for monitoring the safety of these potential therapeutic regimens.

Abstract LB-375: Development of new compounds specifically targeting prostate cancer bone metastases

Abstract Introduction: Bone metastases are a major cause of morbidity for men with prostate cancer (PCa). Although PCa cells produce osteoblastic metastases, there is an initial and ongoing osteoclast (OC)-mediated osteolytic phase that is essential for PCa bone metastases. OC-mediated bone resorption is dependent upon OC secretion of bone acid phosphatase. PCa cells in bone secrete high levels of prostatic acid phosphatase (PAP) which differs from BAP in that PAP enzymatic activity is inhibited by tartrate and glyceric acid, whereas BAP is tartrate-resistant. Hypothesis: PAP secreted by human PCa cells in bone acts similarly to OC-derived bone acid phosphatase to degrade bone matrix and enhance PCa bone-targeting and growth in bone. We developed new compounds consisting of glyceric acid or tartrate (known PAP inhibitors) conjugated to a bisphosphonate to inhibit PCa bone metastases. Methods: PCa bone metastases derived from 7 patients were immunostained for androgen receptor (AR), prostate specific antigen (PSA) and PAP expression. The VCaP human PCa cell line derived from a vertebral metastases was inoculated intratibially into SCID mice (n=8) and bone lesions immunostained for AR, PSA, and PAP. Co-cultures of MC3T3 osteoblasts and VCaP cells were treated with tartrate and the effects on cell number, PAP and bone alkaline phosphatase (ALP) secretion measured by ELISA. Glyceric Acid and Tartaric acid were then conjugated with alendronate and the effects of these new conjugates on PAP enzymatic activity were compared to alendronate alone and tartrate alone. Results: Human PCa bone lesions (7/7) had strongly positive expression of PAP, with little AR or PSA expression. 8/8 SCID mice inoculated with VCaP cells intratibially developed osteoblastic VCaP lesions and these similarly had high PAP expression and no PSA expression. Tartrate addition to co-cultures of VCaP and MC3T3 osteoblasts reduced MC3T3 cell numbers and ALP secretion. In vitro testing of the conjugates revealed that the glyceric acid-alendronate conjugate inhibited PAP enzymatic activity but the tartrate-alendronate conjugate and alendronate alone had no significant inhibitory activity. Discussion: We have evidence that PAP secretion by PCa cells enhances their bone metastatic ability. We have developed new bone-targeting agents that consist of alendronate conjugated to PAP-inhibitory small molecules for further development as oral agents to prevent and treat PCa bone metastases. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr LB-375.

Oncolytic herpes simplex virus armed with xenogeneic homologue of prostatic acid phosphatase enhances antitumor efficacy in prostate cancer

Prostate cancer is one of the most prevalent cancers in men. Replication-competent oncolytic herpes simplex virus (oHSV) vectors are a powerful antitumor therapy that can exert at least two effects: direct cytocidal activity that selectively kills cancer cells and induction of antitumor immunity. In addition, oHSV vectors can also function as a platform to deliver transgenes of interest. In these studies, we have examined the expression of a xenogeneic homologue of the prostate cancer antigen, prostatic acid phosphatase (PAP), with the goal of enhancing virotherapy against PAP-expressing tumors. PAP has already been used for cancer vaccination in patients with prostate cancer. Here we show that treatment with oHSV bPDelta6 expressing xenogeneic human PAP (hPAP) significantly reduces tumor growth and increases survival of C57/BL6 mice bearing mouse TRAMP-C2 prostate tumors, whereas expression of syngeneic mouse PAP (mPAP) from the same oHSV vector did not enhance antitumor activity. Treatment of mice bearing metastatic TRAMP-C2 lung tumors with oHSV-expressing hPAP resulted in fewer tumor nodules. To our knowledge, this is the first report of oncolytic viruses being used to express xenoantigens. These data lend support to the concept of combining oncolytic and immunogenic therapies as a way to improve therapy of metastatic prostate cancer.