[Neuroendocrine differentiation in prostate cancer. An unrecognized and therapy-resistant phenotype]

Down-regulation of 5-HT1B and 5-HT1D receptors inhibits proliferation, clonogenicity and invasion of human pancreatic cancer cells

Pancreatic ductal adenocarcinoma is characterized by extensive local tumor invasion, metastasis and early systemic dissemination. The vast majority of pancreatic cancer (PaCa) patients already have metastatic complications at the time of diagnosis, and the death rate of this lethal type of cancer has increased over the past decades. Thus, efforts at identifying novel molecularly targeted therapies are priorities. Recent studies have suggested that serotonin (5-HT) contributes to the tumor growth in a variety of cancers including prostate, colon, bladder and liver cancer. However, there is lack of evidence about the impact of 5-HT receptors on promoting pancreatic cancer. Having considered the role of 5-HT-1 receptors, especially 5-HT_1B and 5-HT_1D subtypes in different types of malignancies, the aim of this study was to investigate the role of 5-HT_1B and 5-HT_1D receptors in PaCa growth and progression and analyze their potential as cytotoxic targets. We found that knockdown of 5-HT_1B and 5-HT_1D receptors expression, using specific small interfering RNA (siRNA), induced significant inhibition of proliferation and clonogenicity of PaCa cells. Also, it significantly suppressed PaCa cells invasion and reduced the activity of uPAR/MMP-2 signaling and Integrin/Src/Fak-mediated signaling, as integral tumor cell pathways associated with invasion, migration, adhesion, and proliferation. Moreover, targeting 5-HT_1B and 5-HT_1D receptors down-regulates zinc finger ZEB1 and Snail proteins, the hallmarks transcription factors regulating epithelial-mesenchymal transition (EMT), concomitantly with up-regulating of claudin-1 and E-Cadherin. In conclusion, our data suggests that 5-HT_1B– and 5-HT_1D–mediated signaling play an important role in the regulation of the proliferative and invasive phenotype of PaCa. It also highlights the therapeutic potential of targeting of 5-HT_1B/1D receptors in the treatment of PaCa, and opens a new avenue for biomarkers identification, and valuable new therapeutic targets for managing pancreatic cancer.

Snail transcription factor regulates neuroendocrine differentiation in LNCaP prostate cancer cells

BACKGROUND

Snail transcription factor induces epithelial-mesenchymal transition (EMT) via decreased cell adhesion-associated molecules like E-cadherin, and increased mesenchymal markers like vimentin. We previously established Snail-mediated EMT model utilizing androgen-dependent LNCaP cells. These cells express increased vimentin protein and relocalization of E-cadherin from the cell membrane to the cytosol. Interestingly, Snail transfection in LNCaP cells resulted in cells acquiring a neuroendocrine (NE)-like morphology with long neurite-like processes.

METHODS

We tested for expression of NE markers neuron-specific enolase (NSE) and chromogranin A (CgA) by Western blot analysis, and performed proliferation assays to test for paracrine cell proliferation.

RESULTS

LNCaP cells transfected with Snail displayed increase in the NE markers, NSE and CgA as well as translocation of androgen receptor (AR) to the nucleus. LNCaP C-33 cells that have been previously published as a neuroendocrine differentiation (NED) model exhibited increased expression levels of Snail protein as compared to LNCaP parental cells. Functionally, conditioned medium from the LNCaP-Snail transfected cells increased proliferation of parental LNCaP and PC-3 cells, which could be abrogated by NSE/CgA siRNA. Additionally, NED in LNCaP-C33 cells or that induced in parental LNCaP cells by serum starvation could be inhibited by knockdown of Snail with siRNA.

CONCLUSION

Overall our data provide evidence that Snail transcription factor may promote tumor aggressiveness in the LNCaP cells through multiple processes; induction of EMT may be required to promote migration, while NED may promote tumor proliferation by a paracrine mechanism. Therefore, therapeutic targeting of Snail may prove beneficial in not only abrogating EMT but also NED.

Modeling prostate cancer: a perspective on transgenic mouse models

Despite considerable success in treatment of early stage localized prostate cancer (PC), acute inadequacy of late stage PC treatment and its inherent heterogeneity poses a formidable challenge. Clearly, an improved understanding of PC genesis and progression along with the development of new targeted therapies are warranted. Animal models, especially, transgenic immunocompetent mouse models, have proven to be the best ally in this respect. A series of models have been developed by modulation of expression of genes implicated in cancer-genesis and progression; mainly, modulation of expression of oncogenes, steroid hormone receptors, growth factors and their receptors, cell cycle and apoptosis regulators, and tumor suppressor genes have been used. Such models have contributed significantly to our understanding of the molecular and pathological aspects of PC initiation and progression. In particular, the transgenic mouse models based on multiple genetic alterations can more accurately address the inherent complexity of PC, not only in revealing the mechanisms of tumorigenesis and progression but also for clinically relevant evaluation of new therapies. Further, with advances in conditional knockout technologies, otherwise embryonically lethal gene changes can be incorporated leading to the development of new generation transgenics, thus adding significantly to our existing knowledge base. Different models and their relevance to PC research are discussed.

Neuroendocrine differentiation in prostate cancer: a sheep in wolf's clothing?

Neuroendocrine differentiation of the prostate is often associated with a dismal prognosis. Whilst it is relatively rare compared with other forms of prostate cancer, it nevertheless remains difficult to treat these cancers effectively and to maintain a durable response. Research aimed at understanding the complexity of neuroendocrine differentiation of the prostate has been conducted for some time. The cells involved in this process secrete a variety of factors that can influence growth patterns and regulatory pathways. Many of these factors can be monitored serologically, but the relationship between the biology of the tumor and clinical response is often discordant. This review outlines the difficulties in treating this disease, both at the time of diagnosis and in the metastatic setting, and focuses on an area of research that remains challenging to both the researcher and clinician.

The effect of serotonin and serotonin antagonists on bladder cancer cell proliferation

OBJECTIVE

To investigate the role of serotonin (5-hydroxytryptamine, 5HT) and its antagonists in the proliferation of high-grade bladder cancer cells (HT1376), as high-grade bladder cancer has a rapid rate of progression, invasion and recurrence, and 5HT antagonists inhibit the growth of the prostate cancer cell line (PC3).

MATERIALS AND METHODS

HT1376 (human grade III transitional cell carcinoma) cells were incubated with either 5HT or 5HT antagonists (5HT(1A), 5HT(1B), 5HT(1D), 5HT(2), 5HT(3) and 5HT(4)). After 72 h, cell viability was assessed using the crystal violet assay. The presence of 5HT receptor subtypes on HT1376 cells and sections of human bladder cancer tissue was determined by immunohistochemistry and Western blot analysis.

RESULTS

5HT caused a dose-dependent increase in the proliferation of HT1376 cells. The maximum increase in cell proliferation (12%; 12 samples, P < 0.001) was at 10(-8)m as compared to the control at 72 h. At 10(-4)m, 5HT(1A) antagonist (NAN-190 hydrobromide) and 5HT(1B) antagonist (SB224289 hydrochloride) had a 10% (12 samples, P < 0.001) and 93% (12, P < 0.001) inhibitory effect on HT1376 cell growth, respectively, compared to the control at 72 h. There was immunostaining for 5HT(1A) and 5HT(1B) receptors in HT1376 cells and malignant bladder tissue, confirming the presence of these two receptor subtypes. Western blot analysis showed the presence of 5HT(1A) and 5HT(1B) receptor proteins with bands of 46 kDa and 43 kDa, respectively.

CONCLUSION

5HT(1A) and to a greater extent 5HT(1B) antagonists significantly inhibit bladder cancer cell growth. This effect is probably mediated via the 5HT(1A) and 5HT(1B) receptors. These results highlight the potential use of 5HT(1A) and 5HT(1B) antagonists in the treatment of bladder cancer.

[Prognostic factors in prostate cancer]

Since several therapeutic options are currently available for clinically organ-confined prostate cancer, morphological parameters have rapidly emerged as prognostic factors to stratify patients into different therapeutic modalities. In addition to the PSA value, pathologic stage, as defined by the TNM system, Gleason grade and the surgical margin status, other markers have prognostic implications. This includes the percent pattern 4/5 cancer, tumor volume, intraductal spread, large volume perineural invasion and molecular markers. This review discusses the methods of sampling and reporting in prostate pathology with an emphasis on well established and new prognostic factors.