Taize M. Augusto

IL-6 and IL-10 Anti-Inflammatory Activity Links Exercise to Hypothalamic Insulin and Leptin Sensitivity through IKKβ and ER Stress Inhibition

Physical activity confers beneficial metabolic effects by inducing anti-inflammatory activity in the hypothalamus region of the brain in rodents, resulting in a reorganization of the set point of nutritional balance and reduced insulin and leptin resistance.

Stromal remodelling is required for progressive involution of the rat ventral prostate after castration: Identification of a matrix metalloproteinase-dependent apoptotic wave

Prostate epithelial-cell apoptosis occurs in response to androgen deprivation. We have hypothesized that continued regression would require stromal changes. Studying apoptosis kinetics up to the 14th day after castration, we identified successive waves of apoptosis, with a prominent peak on day 11. This peak was associated with caspase-3 activity, nuclear translocation of apoptosis-inducing factor and clusterin expression. The apoptosis peak on day 11 was preceded by increased MMP-2 and MMP-7 activation, and MMP-9 expression on days 9 and 10. Treatment with the matrix metalloproteinases inhibitors doxycyclin, hydrocortisone, or GM6001 caused significant reduction in the apoptosis rate on day 11. The present data demonstrate that prostatic epithelial-cell deletion at the 11th day after castration was induced by focal degradation of the extracellular matrix associated with stromal remodelling.

Menthol Inhibits Detrusor Contractility Independently of TRPM8 Activation

Agonists such as icilin and menthol can activate the cool temperature-sensitive ion channel TRPM8. However, biological responses to menthol may occur independently of TRPM8 activation. In the rodent urinary bladder, menthol facilitates the micturition reflex but inhibits muscarinic contractions of the detrusor smooth muscle. The site(s) of TRPM8 expression in the bladder are controversial. In this study we investigated the regulation of bladder contractility in vitro by menthol. Bladder strips from wild type and TRPM8 knockout male mice (25–30 g) were dissected free and mounted in organ baths. Isometric contractions to carbachol (1 nM–30 µM), CaCl2 (1 µM to 100 mM) and electrical field stimulation (EFS; 8, 16, 32 Hz) were measured. Strips from both groups contracted similarly in response to both carbachol and EFS. Menthol (300 µM) or nifedipine (1 µM) inhibited carbachol and EFS-induced contractions in both wild type and TRPM8 knockout bladder strips. Incubation with the sodium channel blocker tetrodotoxin (1 µM), replacement of extracellular sodium with the impermeant cation N-Methyl-D-Glucamine, incubation with a cocktail of potassium channel inhibitors (100 nM charybdotoxin, 1 µM apamin, 10 µM glibenclamide and 1 µM tetraethylammonium) or removal of the urothelium did not affect the inhibitory actions of menthol. Contraction to CaCl2 was markedly inhibited by either menthol or nifedipine. In cultured bladder smooth muscle cells, menthol or nifedipine abrogated the carbachol or KCl-induced increases in [Ca2+]i. Intravesical administration of menthol increased voiding frequency while decreasing peak voiding pressure. We conclude that menthol inhibits muscarinic bladder contractions through blockade of L-type calcium channels, independently of TRPM8 activation.

The anti-oestrogen fulvestrant (ICI 182,780) reduces the androgen receptor expression, ERK1/2 phosphorylation and cell proliferation in the rat ventral prostate.

This study proposed to investigate further the role of oestrogens during pubertal growth of rat ventral prostate, by analysing the effect of anti-oestrogen fulvestrant (ICI 182,780) on the expression of androgen (AR) and oestrogen receptors (ESR1 and ESR2), mitogen-activated protein kinase (ERK1/2) phosphorylation, and expression of Ki-67, a biomarker for cell proliferation. Ventral prostates were obtained from 90-day-old rats treated once a week for 2 months with vehicle (control) or ICI 182,780 (10 mg/rat, s.c.). Transcripts for AR, ESR1 and ESR2 were evaluated by quantitative real-time polymerase chain reaction. Expression of AR, ESR1, ESR2, total and phospho-ERK1/2 was analysed by Western blot or immunofluorescence. Ki-67-positive cells and myosin heavy chain were detected by immunohistochemistry. Cylindrical epithelial cells slightly taller, epithelial dysplasia and an increase in smooth muscle layer were observed in the ventral prostate from ICI 182,780-treated rats. ICI 182,780 did not change the mRNA, but decreased the protein levels for AR in the ventral prostate. The expression of ESR1 (mRNA and protein) was upregulated by ICI 182,780, but no changes were observed on ESR2 expression (mRNA and protein). ICI 182,780 decreased the phosphorylation state of ERK1/2, with no changes in total ERK1/2 levels. Ki-67-positive cells in the ventral prostate were also decreased by ICI 182,780. In conclusion, ICI 182,780 induces downregulation of AR expression and may block the translocation of ESR1 and ESR2 from the nucleus to the plasma membrane, decreasing ERK1/2 phosphorylation and prostatic epithelial cell proliferation. These findings provide a basis for physiological roles of oestrogen in the ventral prostate. Further studies with fulvestrant are necessary in benign prostate hyperplasia and prostatic cancer models.

RECK Expression in the Rat Ventral Prostate: Response to Castration Involves a Balance Between Epithelial and Stromal Expression

RECK is expressed in the rat ventral prostate. The amount of mRNA increased after castration. In situ hybridization and immunohistochemistry demonstrated a transition from epithelial to stromal expression. This demonstrates that stromal cells upregulate RECK expression to regulate matrix metalloproteinases activity responsible for extracellular matrix (ECM) changes occurring after castration. Anat Rec, 2010.

Neonatal exposure to high doses of 17β-estradiol results in inhibition of heparanase-1 expression in the adult prostate

Heparanase-1 (HPSE-1) is an endoglycosidase that cleaves heparan sulfate. The physiological functions of HPSE-1 include embryo development, hair growth, wound healing, tumor growth, angiogenesis, metastasis, and inflammation. HPSE-1 expression was found to increase temporarily in the rat ventral prostate (VP) after castration. The promoter region of the Hpse-1 gene has estrogen-responsive elements, suggesting that the gene is regulated by estrogens. In this study, we investigated the expression of HPSE-1 in the VP of 90-day-old rats after neonatal exposure to a high dose of 17β-estradiol. HPSE-1 was not found by immunohistochemistry in the epithelium of estrogenized animals. To determine whether inhibition of Hpse-1 expression in the epithelium was due to pre- or post-transcriptional regulation, epithelial cells were isolated by centrifugation in Percoll gradient and the presence of Hpse-1 mRNA was investigated by RT-PCR. Hpse-1 mRNA was not detected in the estrogenized animals. Considering that Hpse-1 transcription could be inhibited by DNA methylation, we used the methylation-sensitive restriction enzyme HpaII and PCR to show that a single CCGG site at position +185 was more frequently methylated in the epithelium of estrogenized than in control animals. Immunohistochemistry for 5-methylcytidine revealed that the epithelial cell nuclei in estrogenized animals were heavily methylated. These results suggest that Hpse-1 expression was blocked in the epithelial cells of the VP, by estrogen imprinting by a pre-transcriptional mechanism involving DNA methylation.

Macrophage roles in the clearance of apoptotic cells and control of inflammation in the prostate gland after castration

Androgen deprivation results in massive apoptosis in the prostate gland. Macrophages are actively engaged in phagocytosing epithelial cell corpses. However, it is unknown whether microtubule‐associated protein 1 light chain 3 alpha (LC3)‐associated phagocytosis (LAP) is involved and contribute to prevent inflammation.

Heparanase 1 involvement in prostate physiopathology

The prostate is a compound exocrine gland of the male reproductive tract universally present in mammals. It is highly responsive to androgen and can be committed by a variety of pathological complications as prostatitis, benign, and malignant proliferative changes, which may be intensified by aging. Prostate intensively turnover its extracellular matrix (ECM) either at homeostasis or disease which includes a dynamically change of glycosaminoglycan composition during the life of an individual. Among the different enzymes playing a role in such changes, heparanase‐1 is responsible for cleaving heparan sulfate (HS) at a limited number of sites, clearly involved in tissue remodeling. Its activity has been strongly implicated in cell invasion associated with cancer metastasis, a consequence of the structural modification that loosens the ECM barrier. In the present review we focuses in some aspects of the prostate physiology and diseases, particular prostate cancer, evidencing how the HPSE‐1 activity encompasses the relationship of both processes.

Human-specific features of the G-quadruplex in the androgen receptor gene promoter: A comparative structural and dynamics study

The androgen receptor (AR) promoter contains guanine-rich regions that are able to fold into polymorphic G-quadruplex (GQ) structures, and whose deletion decreases AR gene transcription. Our attention was focused on this region because of the frequent termination of sequencing reactions during promoter methylation studies. UV and circular dichroism (CD) spectroscopy of synthetic oligonucleotides encompassing these guanine-rich regions suggested a parallel quadruplex topology with three guanine quartets and three side loops in the three cases. Melting curves revealed a lower thermostability of the human GQ compared to the rat/mouse QG structures, which is attributed to the presence of a longer central loop in the former. One molecular model is proposed for the highly similar sequences in the rat/mouse. Due to the polymorphism resulting from possible arrangements of the guanine tracts, two models were derived for the human GQ. Molecular dynamics (MD) simulations determined that both models for the human GQ had higher flexibility and lower stability than the rodent GQ models. These properties result from the presence of a longer central loop in the human GQ models, which contains 11 and 13 nucleotides, in comparison to the 2-nucleotide long loop in the rat/mouse GQ. Overall, the unveiled structural and dynamics features provide sufficient detail for the intelligent design of drugs targeting the human AR promoter.

The role of SDF1 in prostate epithelial morphogenesis: BARBOSA et al.

Androgens induce rat prostate induction from the urogenital sinus epithelium at embryonic day 17.5. Subsequent morphogenesis, including epithelial cord growth, branching, and canalization, results from concerted paracrine interactions with the stroma. A significant number of paracrine factors bind heparan sulfate (HS). We hypothesized that interfering with overall sulfation could disrupt the signaling mediated by HS‐binding factors and that the undersulfated environment would allow investigation of individual exogenous morphogens. First, we investigated whether acinar morphogenesis involved HS‐proteoglycan expression and found that syndecans 1 and 3 were upregulated in RWPE1 cells in the transition from two‐ to three‐dimensional (3D) Matrigel, capable of promoting spheroid formation. We then investigated whether sodium chlorate, a general sulfation inhibitor, interfered with spheroid formation by RWPE1 cells and acinar morphogenesis in ex vivo ventral prostate (VP) organ culture. As expected, treatment with sodium chlorate inhibited spheroid formation by RWPE1 cells in 3D culture. Chlorate also inhibited ex vivo VP epithelial branching and canalization, resulting in long branchless epithelial structures. We then investigated whether the HS‐binding factors, FGF10, TGFβ1, and SDF1, could reverse the effect of sodium chlorate. Although no effect was seen in the FGF10‐ and TGFβ1‐treated samples, SDF1 promoted epithelial canalization in the low sulfated environment, highlighting its specific role in lumen formation. Altogether, the results show that sodium chlorate perturbed prostate morphogenesis and allowed investigation of factors involved in branching and/or canalization, implicating SDF1 signaling in epithelial canalization.