Correction: Inhibitor SBFI26 suppresses the malignant progression of castration-resistant PC3-M cells by competitively binding to oncogenic FABP5.

[This corrects the article DOI: 10.18632/oncotarget.16055.].

Leydig cells express the FABP9 in human testis.

BACKGROUND: Previous studies have shown that the FABP9/PERF15 gene is expressed in mice and in some other mammals in the testicles and in the spermatozoa, and its possible effect on the ability of the sperm to form and maintain the nucleus until fertilization. OBJECTIVE: Since the FABP9 homologue gene exists in humans, and so far no research has been done to indicate the exact location of this gene in the organism, it is necessary to find a better interpretation of its possible performance by its localization in the testis. MATERIAL AND METHODS: Biopsied testicular tissue samples after sectioning and embedding on class slide were subjected to IHC with specific monoclonal antibody and underwent final staining with hematoxylin and eventually evaluated by light microscope. RESULTS: The antibody could successfully bind and detect its related protein, FABP9, in Leydig cells rather than spermatogenic cells. CONCLUSION: The expression of FABP9 in a different cell type rather than spermatogenic cells in other mammals, reports of a plausible different function for the gene product like its involvement in fertility potential in homo sapiens.

Inhibitor SBFI26 suppresses the malignant progression of castration-resistant PC3-M cells by competitively binding to oncogenic FABP5.

Castration resistant-prostate cancer is largely impervious to feather hormonal therapy and hence the outlook for patients is grim. Here we use an approach to attach the recently discovered Achilles heel. The experimental treatment established in this study is based on the recent discovery that it is the FABP5-PPARγ-VEGF signalling axis, rather than the androgen receptor pathway, played a dominant role in promoting the malignant progression of castration resistant prostate cancer cells. Treatments have been established in mice by suppressing the biological activity of FABP5 using a chemical inhibitor SBFI26. The inhibitor significantly suppressed the proliferation, migration, invasiveness and colony formation of PC3-M cells in vitro. It also produced a highly significant suppression of both the metastases and the primary tumours developed from cancer cells implanted orthotopically into the prostate glands of the mice. The inhibitor SBFI26 interferes with the FABP5-PPARγ- signalling pathway at the initial stage of the signal transduction by binding competitively to FABP5 to inhibit cellular fatty acid uptake. This avoids the fatty-acid stimulation of PPARγ and prevents it activating the down-stream regulated cancer-promoting genes. This entirely novel experimental approach to treating castration- resistant prostate cancer is completely different from current treatments that are based on androgen-blockade therapy.

Fatty acid activated PPARγ promotes tumorigenicity of prostate cancer cells by up regulating VEGF via PPAR responsive elements of the promoter.

In previous work, it is suggested that the excessive amount of fatty acids transported by FABP5 may facilitate the malignant progression of prostate cancer cells through a FABP5-PPARγ-VEGF signal transduction axis to increase angiogenesis. To further functionally characterise the FABP5-PPARγ-VEGF signal transduction pathway, we have, in this work, investigated the molecular mechanisms involved in its tumorigenicity promoting role in prostate cancer. Suppression of PPARγ in highly malignant prostate cancer cells produced a significant reduction (up to 53%) in their proliferation rate, invasiveness (up to 89%) and anchorage-independent growth (up to 94%) in vitro. Knockdown of PPARγ gene in PC3-M cells by siRNA significantly reduced the average size of tumours formed in nude mice by 99% and tumour incidence by 90%, and significantly prolonged the latent period by 3.5 fold. Results in this study combined with some previous results suggested that FABP5 promoted VEGF expression and angiogenesis through PPARγ which was activated by fatty acids transported by FABP5. Further investigations showed that PPARγ up-regulated VEGF expression through acting with the PPAR-responsive elements in the promoter region of VEGF gene in prostate cancer cells. Although androgen can modulate VEGF expression through Sp1/Sp3 binding site on VEGF promoter in androgen-dependent prostate cancer cells, this route, disappeared as the cells gradually lost their androgen dependency; was replaced by the FABP5-PPARγ-VEGF signalling pathway. These results suggested that the FABP5-PPARγ-VEGF signal transduction axis, rather than androgen modulated route, may be a more important novel therapeutic target for angiogenesis-suppression treatment of castration resistant prostate cancer.

Increased expression of Id1 and Id3 promotes tumorigenicity by enhancing angiogenesis and suppressing apoptosis in small cell lung cancer.

Constant deregulation of Id1 and Id3 has been implicated in a wide range of carcinomas. However, underlying molecular evidence for the joint role of Id1 and Id3 in the tumorigenicity of small cell lung cancer (SCLC) is sparse. Investigating the biological significance of elevated expression in SCLC cells, we found that Id1 and Id3 co-suppression resulted in significant reduction of proliferation rate, invasiveness and anchorage-independent growth. Suppressing both Id1 and Id3 expression also greatly reduced the average size of tumors produced by transfectant cells when inoculated subcutaneously into nude mice. Further investigation revealed that suppressed expression of Id1 and Id3 was accompanied by decreased angiogenesis and increased apoptosis. Therefore, the SCLC tumorigenicity suppression effect of double knockdown of Id1 and Id3 may be regulated through pathways of apoptosis and angiogenesis.

The expression of C-FABP and PPARγ and their prognostic significance in prostate cancer.

The purpose of this study was to test the hypothesis that cooperative interaction between cutaneous fatty acid-binding protein (C-FABP) and peroxisome proliferator-activated receptors (PPAR) promotes the malignant progression of human prostate cancer. The expression of C-FABP, PPARß/δ and PPARγ was measured by western blot analysis in prostate cell lines and by immunohistochemical staining in tissue sections of benign prostatic hyperplasia (BPH) and prostatic carcinomas. The correlation between the expression of PPARs and C-FABP was assessed. The significance of increased expression of these proteins was analysed with respect to prognosis and compared with those of alternative biomarkers. The expression levels of C-FABP and PPARγ in prostate cancer cell lines and the cytoplasm and nuclei of carcinoma tissues were significantly (Student's t-test, p<0.05) higher compared to those in benign cell lines and BPH tissues. The raised expression level of C-FABP and PPARγ was significantly correlated with the increased combined Gleason scores (GS) of the carcinomas. Enhanced expression of cytoplasmic C-FABP significantly correlated with increased nuclear PPARγ (Student's t-test, p<0.005). While expression of PPARß/δ in carcinomas did not correlate with patient outcome, the increased levels of both C-FABP and PPARγ were associated with shorter patient survival. Multivariate analysis indicated that C-FABP was independently associated with patient survival, whereas PPARγ was confounded by C-FABP in predicting patient survival. Thus, the increased C-FABP may interact with PPARγ in a coordinated mechanism to facilitate malignant progression in prostatic cancer. Both C-FABP and PPARγ are suitable as prognostic factors to predict the clinical outcome of prostatic cancer patients.

A novel cutaneous Fatty Acid-binding protein-related signaling pathway leading to malignant progression in prostate cancer cells.

Cutaneous fatty acid-binding protein (C-FABP), a cancer promoter and metastasis inducer, is overexpressed in the majority of prostatic carcinomas. Investigation of molecular mechanisms involved in tumor-promoting activity of C-FABP has established that there is a fatty acid-initiated signaling pathway leading to malignant progression of prostatic cancer cells. Increased C-FABP expression plays an important role in this novel signaling pathway. Thus, when C-FABP expression is increased, excessive amounts of fatty acids are transported into the nucleus where they act as signaling molecules to stimulate their nuclear receptor peroxisome proliferator-activated receptor gamma (PPARγ). The activated PPARγ then modulates the expression of its downstream target regulatory genes, which eventually lead to enhanced tumor expansion and aggressiveness caused by an overgrowth of cells with reduced apoptosis and an increased angiogenesis.

Atelocollagen-delivered siRNA targeting the FABP5 gene as an experimental therapy for prostate cancer in mouse xenografts.

The gene FABP5 encodes cutaneous fatty acid binding protein (C-FABP) that is up-regulated in prostate cancer where it acts as a putative oncogene. To test the hypothesis that siRNA to FABP5 delivered to the external environment of a prostate cancer would reduce the level of C-FABP in vivo, experiments were established whereby siRNA to FABP5 suspended in atelocollagen was injected around tumour masses produced by PC-3M cells in Balb/c nude mice and compared with the effect of non-specific scrambled siRNA in atelocollagen. At autopsy, the average size of tumours from the groups treated with 10 and 15 microM siRNA in atelocollagen was significantly (p=0.02) reduced by more than 3-fold, when compared to the controls. In contrast, when compared to the tumours produced by the group treated with scrambled siRNA, treatment with 10 microM FABP5 siRNA in buffer and 1 or 5 microM siRNA in atelocollagen did not produce significant differences. Although the dosage of 15 microM siRNA produced a greater reduction in tumour sizes when compared with 10 microM, this difference was not significant (p=0.9). Immunohistochemistry and Western blotting revealed that the levels of C-FABP expression in tumours from mice treated with 10 and 15 microM dosages were lower than those from the other groups. These data demonstrate that FABP5 siRNA delivered by atelocollagen to the external environment surrounding a tumour mass can effectively inhibit prostate cancer cell growth in nude mice when administered in a dose-dependent manner at concentrations of >10 microM.

NS22: a highly polymorphic complex microsatellite marker within the ATM gene.

We have found a complex repeat sequence (NS22) that is highly polymorphic and located within intron 45 of the ataxia-telangiectasia gene (ATM). Sequencing this region from various individuals demonstrated two different polymorphic repeating units adjacent to one another. The fact that the sequence is located within the ATM gene provides a unique opportunity to follow segregation of affected and unaffected haplotypes for prenatal diagnosis of ataxia-telangiectasia. The high degree of polymorphism observed with this marker will also aid in evaluating loss of heterozygosity (LOH) across this region of the genome and may prove valuable in assessing the role of the ATM gene in susceptibility to cancer.

Expression of Epstein-Barr nuclear antigen 2 in kidney tubule cells induce tumors in transgenic mice.

The effect of EBNA2 in normal cells in vivo has not as yet been explored. The experiments described here were initiated to follow the consequences of the expression of EBNA2 in different tissues in transgenic mice. EBNA2 transgenic strains were generated using a vector containing EBNA2 encoding sequences under the control of the simian virus 40 (SV 40) early enhancer/promoter fused to the endogenous EBNA2 Wp promoter. Control mice carrying a transgene with the same sequence but lacking the EBV DNA part remained healthy during observation periods of up to 15 months. The SV-EBNA2 transgenic animals, however, over time developed abdominal masses that on necropsy showed to be due to kidney tumors. Histological examination revealed the presence of tumors with the morphology of kidney adenocarcinoma with a solid growth pattern. At the age of 20 weeks the kidneys of all animals investigated showed disseminated islands of tubular hyperplasia but no true malignant neoplasms. At about 50 weeks of age multiple foci of microscopic tubular adenocarcinomas were found in both kidneys. Eventually, tumors could be diagnosed in about 90% of the SV-EBNA2 transgenic mice. EBNA2-encoding RNA was expressed in both non-malignant kidney tissue and in tumors as shown by cDNA/PCR analysis. Immunoprecipitation and immunoblot analysis showed that the tumor cells contained a polypeptide of the same size as EBNA2 in B95-8 cells that reacted with a monoclonal anti-EBNA2 antibody. Immunohistochemistry demonstrated nuclear expression of EBNA2 in hyperplastic tubules and in tumor tissue.

Response to cAMP levels of the Epstein-Barr virus EBNA2-inducible LMP1 oncogene and EBNA2 inhibition of a PP1-like activity.

The expression of the Epstein-Barr virus LMP1 oncogene is regulated by viral and non-viral factors in a tissue dependent fashion. The virus encoded transcription factor EBNA2 induces its expression in human B-cells. However, this induction also requires the contribution of cellular and/or other viral factors. In nasopharyngeal carcinoma cells and in cells from Hodgkin's lymphoma, LMP1 gene transcription is independent of viral products. Here we show that the effect of a factor binding to a cAMP responsive-like element (CRE) in the LMP1 gene transcription regulatory sequence (LRS) is essential for efficient promoter activity in the DG75 B-cell line and that elevation of cAMP levels in the cells induces LRS-derived CAT activity in a CRE dependent fashion. Incubation of two EBV-immortalized B-cell lines expressing endogenous EBNA2A with 8-Br cAMP increased the levels of the latency associated 66 kDa LMP1 within 2 h. Interestingly, LMP1 expression in DG75 cells conferred resistance to the inhibitory effect of 8-Br cAMP on cell proliferation. The protein phosphatase 1 and 2A (PP1 and PP2A, respectively) inhibitor okadaic acid also stimulated LRS-CAT activity in DG75 cells. EBNA2A from an EBV-immortalized B-cell line co-immunopurified with a PP1-like protein. An EBNA2A fragment spanning residues 324-436 fused to the GST protein specifically rescued a PP1/PP2A-like component from DG75 cell extracts. This GST-EBNA2A fusion product inhibited a PP1-like activity in nuclear extracts from these cells.