Maria Graziella Catalano

AGEs/RAGE complex upregulates BACE1 via NF-κB pathway activation.

Although the pathogenesis of sporadic Alzheimer disease (AD) is not clearly understood, it is likely dependent on several age-related factors. Diabetes is a risk factor for AD, and multiple mechanisms connecting the 2 diseases have been proposed. Hyperglycemia enhances the formation of advanced glycation end products (AGEs) that result from the auto-oxidation of glucose and fructose. The interaction of AGEs with their receptor, named RAGE, elicits the formation of reactive oxygen species that are also believed to be an early event in AD pathology. To investigate a functional link between the disorders diabetes and AD, the effect of 2 AGEs, pentosidine and glyceraldehydes-derived pyridinium (GLAP), was studied on BACE1 expression both in vivo, in streptozotocin treated rats, and in vitro in differentiated neuroblastoma cells. We showed that pentosidine and GLAP were able to upregulate BACE1 expression through their binding with RAGE and the consequent activation of NF-κB. In addition, both pentosidine and GLAP were found to be increased in the brain in sporadic AD patients. Our findings demonstrate that activation of the AGEs/RAGE axis, by upregulating the key enzyme for amyloid-β production, provides a pathologic link between diabetes mellitus and AD.

Valproic acid enhances tubulin acetylation and apoptotic activity of paclitaxel on anaplastic thyroid cancer cell lines

The introduction of paclitaxel into multimodal therapy for anaplastic thyroid carcinoma has failed to improve overall survival. Toxicity rules out the high doses required, especially in older patients. The search for strategies to enhance paclitaxel antineoplastic activity and reduce its side effects is thus advisable. The study aimed to determine whether the histone deacetylase (HDAC) inhibitor valproic acid (VPA) improves the anticancer action of paclitaxel and elucidate the mechanisms underlying the effects of combined treatment. We examined the effect of VPA on the sensitivity to paclitaxel of two anaplastic thyroid carcinoma cell lines (CAL-62 and ARO), and the ability of the drug to determine tubulin acetylation and enhance paclitaxel-induced acetylation. The addition of as little as 0.7 mM VPA to paclitaxel enhances both cytostatic and cytotoxic effects of paclitaxel alone. Increased apoptosis explains the enhancement of the cytotoxic effect. The mechanism underlying this effect is through inhibition of HDAC6 activity, which leads to tubulin hyperacetylation. The results suggest a mechanistic link between HDAC6 inhibition, tubulin acetylation, and the VPA-induced enhancement of paclitaxel effects, and provide the rationale for designing future combination therapies.

The androgen receptor CAG repeat: a modifier of carcinogenesis?

The first exon of the human androgen receptor (AR) contains a translated CAG (poly-glutamine) repeat. The repeat length is polymorphic in the normal population ranging from 8 to 35 repeats. Expansions to over 40 repeats lead to spinal bulbar muscular atrophy (SBMA), a late onset neurodegenerative disease. The repeat is located between the two parts of a bipartite amino-terminal transactivation function and the repeat length, also within in the normal range, is inversely correlated to the transactivation power of the receptor. P160 type co-activators bind more strongly to shorter repeats. A correlation between AR CAG repeat length and total risk, age at diagnosis, recurrence after surgery and aggressive growth has been reported for tumors of classical androgen target tissues. In the prostate, where androgens exert a mitogenic effect, the cancer risk increases with decreasing AR-CAG repeat length. In contrast, in the breast, where the hormone probably acts as anti-mitogen, a higher risk and earlier onset of breast cancer has been reported for carriers of BRCA1 mutations who also have long CAG repeats in the receptor gene. Somatic alterations during carcinogenesis appear to be frequent in endometrial and in colon cancer. In the endometrium the AR CAG repeat prevalently undergoes expansions consistent with the putative protective function of androgens in this tissue. Frequent repeat reductions during colon carcinogenesis would be consistent with a mitogenic effect of androgens. Analysis of AR protein expression by Western blot reveals expression of the AR in healthy and neoplastic colon tissues. Normal mucosa of the colon expresses both AR-isoforms of 110 and 87 kDa, while the tumor samples have lost the expression of the 110-kDa isoform. The 87-kDa isoform is devoid of the amino-terminal portion of the receptor molecule that also contains the poly-glutamine tract. The temporal and causal relation between isoform switch and somatic repeat reductions during colon carcinogenesis is as yet unclear, but the two events could both enhance p160 mediated androgen signaling. The recent finding that smad3 interacts with the AR in a way similar to p160 links the AR to TGFbeta signaling. Interruption of this signaling pathway is a frequent event in colon carcinogenesis.

SREBP-1c in nonalcoholic fatty liver disease induced by Western-type high-fat diet plus fructose in rats.

This study concentrated on the initial events triggering the development of nonalcoholic fatty liver disease induced by a high-fat plus fructose (HF-F) diet and on the possibility of delaying nonalcoholic fatty liver disease progression by adding dehydroepiandrosterone (DHEA) to the diet. Sterol regulatory element binding protein-1c (SREBP-1c) activation plays a crucial role in the progression of nonalcoholic fatty liver disease induced by an HF-F diet. This study investigated the protective effects of DHEA, a compound of physiological origin with multitargeted antioxidant properties, against the induction of SREBP-1c and on liver insulin resistance in rats fed an HF-F diet, which mimics a typical unhealthy Western diet. An HF-F diet, fortified or not with DHEA (0.01%, w/w), was administered for 15 weeks to male Wistar rats. After HF-F the liver showed unbalanced oxidative status, fatty infiltration, hepatic insulin resistance, and inflammation. The addition of DHEA to the diet reduced both activation of oxidative-stress-dependent pathways and expression of SREBP-1c and partially restored the expression of liver X-activated receptor-alpha and insulin receptor substrate-2 genes. DHEA supplementation of the HF-F diet reduced de novo lipogenesis and delayed progression of nonalcoholic fatty liver disease, demonstrating a relationship between oxidative stress and nonalcoholic fatty liver disease via SREBP-1c.

Sex Hormone-Binding Globulin (SHBG), estradiol and breast cancer

The human serum Sex Hormone-Binding Globulin (SHBG) plays an important role in breast cancer pathophysiology and risk definition, since it regulates the bioavailable fraction of circulating estradiol. We here summarize data reported over the years concerning the involvement of SHBG and SHBG polymorphisms in the definition of breast cancer risk. We also report what is known about the direct action of SHBG in breast cancer cells, illustrating its interaction with these cells and the subsequent initiation of a specific intracellular pathway leading to cross-talk with the estradiol-activated pathway and, finally, to the inhibition of several effects of estradiol in breast cancer cells. In conclusion, as a result of its unique property of regulating the estrogen free fraction and cross-talking with the estradiol pathways, by inhibiting estradiol-induced breast cancer cell growth and proliferation, SHBG is associated with a reduced risk of developing the neoplasm after estrogen exposure.

Estrogen receptor-β is expressed in stromal cells of fibroadenoma and phyllodes tumors of the breast

An estrogen dependency has been suggested for the growth of fibroadenomas: however, thus far, none of the steroid hormone receptors acting on breast tissues has been demonstrated in the stroma of breast fibroepithelial lesions. In this study, the expression of estrogen receptor (ER)-α and -β was investigated by immunohistochemistry in 33 fibroadenomas and in 30 benign, three borderline and seven malignant phyllodes tumors, all with spindle cell growth and in one distant metastasis. In addition, the presence of ER-β mRNA and its variants was evaluated by RT-PCR in microdissected stroma. The possible correlation between hormone receptor expression and differentiation processes of stromal cells was investigated by smooth muscle actin and calponin immunostaining. ER-β was the only hormone receptor expressed by stroma of fibroadenomas and phyllodes tumors, both at protein and mRNA level. The highest percentage of ER-β was observed in fibroadenomas with cellular stroma and in phyllodes tumors. In both lesions, ER-β-positive stromal cells showed expression of smooth muscle actin and/or calponin, as demonstrated by double immunostaining. In addition, the mean age at diagnosis was significantly lower in patients with ER-β-positive vs ER-β-negative fibroadenomas. In contrast, in phyllodes tumors, ER-β expression was higher in older patients. In conclusion, (i) only ER-β is detected in the stroma of fibroadenomas and phyllodes tumors; (ii) its expression correlates with the expression of smooth muscle markers and suggests a role of ER-β in myofibroblastic differentiation of stromal cells. These two results, together with the young age of patients carrying fibroadenomas with highly ER-β-positive stroma cells, may further indicate a hormone-receptor mechanism involved in regulating the growth of fibroadenomas. Conversely, the older age of patients with ER-β-rich phyllodes tumors suggests that mechanisms, probably independent from estrogen stimulation, act on the growth of these tumors.

Sex hormone-binding globulin antagonizes the anti-apoptotic effect of estradiol in breast cancer cells.

Sex hormone-binding globulin, the plasma carrier for sex steroids, inhibits the estradiol-induced proliferation of breast cancer cells. Estradiol induces cell proliferation triggering multiple mechanisms. Besides regulating growth factors, it activates Erk-1/-2, thus inhibiting apoptosis. In the present study, we investigated the effect of SHBG on estradiol-mediated anti-apoptotic effect in MCF-7 breast cancer cells. As expected, estradiol reduced the number of cells undergoing apoptosis. Although no modification of estradiol action was observed in cells treated contemporarily with estradiol and SHBG, pre-incubation with SHBG before estradiol treatment contrasted the anti-apoptotic effect completely. A mutant form of SHBG, lacking the O-linked oligosaccharide in Thr(7), displayed no such effect. Moreover, SHBG prevented the estradiol-induced phosphorylation of Erk-1/-2, whereas it had no effect on estradiol-induced transcription. Taken together, our observations suggest that the interaction of SHBG with MCF-7 cell membranes causes inhibition of the anti-apoptotic effect of estradiol which might account for SHBGs inhibitory effect on breast cancer cell growth.

Pro-oxidant effect of dehydroepiandrosterone in rats is mediated by PPAR activation

DHEA-treatment exerts a dual effect, prooxidant or antioxidant, depending on the dosage and, therefore, on the tissue concentration reached. In agreement with previous studies showing a prooxidant effect of DHEA, here we show that pharmacological doses of DHEA produce increased H(2)O(2) levels and a marked reduction of GSH content in rat liver. DHEA, also increases both catalase (by 30%) and cytochrome-C-reductase (by 30%) activities in the liver cytosol. The effectiveness of the state of increased oxidative stress is also documented by changes in fatty acid pattern of the microsomal membranes. Moreover, DHEA, at high doses, enhances beta-oxidation, as demonstrated by an increase of acyl-CoA-oxidase activity and of cytochrome P450 4A content, confirming that it acts as a PPARs inducer. Both PPARs induction and proxidant effects completely disappear when DHEA is administered at lower doses. Seven days treatment (4 or 10 mg) is unable to affect either levels of proxidant species and of antioxidant molecules, or cytochrome P450 4A content and beta-oxidation. Prolonged DHEA treatment (4 mg/day) for three weeks not only is unable to affect PPARs activation and beta-oxidation, but it also exerts a protective effect against ADP/Fe(2+) induced lipid peroxidation. This latter result confirms the antioxidant effects of DHEA at low doses, as already previously documented.

Extracorporeal shock waves enhance normal fibroblast proliferation in vitro and activate mRNA expression for TGF-beta1 and for collagen types I and III.

Background and purpose Extracorporeal shock waves (ESWs) are used to good effect in the treatment of soft tissue injuries, but the underlying mechanisms are still unknown. We therefore determined the effects of ESWs on normal fibroblasts in vitro, in order to assess treatment-induced cell response. Methods A normal human fibroblast cell line (NHDF-12519) was treated with ESWs generated by a piezoelectric device (Piezoson 100; Richard Wolfe) using different protocols of impulses (300, 1,000, or 2,000 shots) and energy (0.11 or 0.22 mJ/mm2). Untreated controls and treated cells were cultivated for 12 days following a single shock-wave treatment. Viability, growth rate, and expression of mRNA for TGFβ -1 and collagen types I and III were evaluated at days 3, 6, 9, and 12. Results 1 hour after shock-wave treatment, cell viability showed a decrease related mainly to impulse numbers applied. Fibroblasts treated with energy of 0.22 mJ/mm2 subsequently showed an increase in proliferation from day 6 to day 9 that was higher than in untreated controls, without interference with the normal cell kinetic profile. mRNA expression was also higher in treated fibroblasts than in untreated controls for TGFβ -1 on day 6 and day 9, for collagen type I on day 6, and for collagen type III on day 9. Interpretation These in vitro data confirm that the main factors involved in the repair process of connective tissues are activated by ESWs. The study gives the rationale for, and may provide schedules for, ESW treatment of tendonopathies.

Cytotoxic activity of the histone deacetylase inhibitor panobinostat (LBH589) in anaplastic thyroid cancer in vitro and in vivo.

Anaplastic thyroid carcinoma (ATC) has a rapidly fatal clinical course, being resistant to multimodal treatments. Microtubules, α/β tubulin heterodimers, are crucial in cell signaling, division and mitosis and are among the most successful targets for anticancer therapy. Panobinostat (LBH589) is a potent deacetylase inhibitor acting both on histones and nonhistonic proteins, including α‐tubulin. In vitro LBH589, evaluated in three ATC cell lines (BHT‐101, CAL‐62 and 8305C), resulted in impairment of cell viability, inhibition of colony formation, cell cycle arrest and apoptosis induction. Mechanistically, we showed that LBH589 not only affected the expression of p21 and cyclin D1, but markedly determined microtubule stabilization as evidenced by tubulin acetylation and increased tubulin polymerization. In a SCID xenograft model implanted with CAL‐62 cells, the cytotoxic properties of LBH589 were confirmed. The drug at the dose of 20 mg/kg significantly impaired tumor growth (final tumor volume 2.5‐fold smaller than in untreated animals); at this dose, no relevant side effects were observed. In tumors of treated animals, a significant reduction of Ki67, which was negatively correlated with tubulin acetylation, was observed. Moreover, acetyl‐tubulin levels negatively correlated with tumor volume at sacrifice, reinforcing the opinion that tubulin acetylation has a role in the inhibition of tumor growth. In conclusion, LBH589, acting on both histones and nonhistonic proteins in anaplastic thyroid cancer, appears to be a promising therapeutic agent for the treatment of this kind of cancer which is known not to respond to conventional therapy.