Effect of all-trans-retinoic acid on the hypercoagulable state of patients with breast cancer.

To evaluate whether all-trans-retinoic acid (ATRA) is able to modulate the hemostatic system in patients with solid tumors, we studied patients with locally advanced breast cancer who were enrolled in a Phase Ib study of ATRA +/- Tamoxifen (Tam). In this study, two groups of 15 patients/each were treated for 21 days before operation with ATRA at three doses (15, 45, or 75 mg/m(2)/day on alternate days) given alone (group 1) or in combination with Tam (group 2). One additional group received Tam alone. Plasma samples were evaluated for hypercoagulation markers (FVIIa, F1+2, TAT, D-dimer), fibrinolysis proteins (t-PA, PAI-1), and coagulation inhibitors (protein C, AT). At baseline, cancer patients had FVIIa, F1+2, TAT, and PAI-1 significantly greater than control subjects. During treatment, in the patients given ATRA alone, hypercoagulation markers appeared unmodified. Instead, subjects given Tam alone had a significant elevation of FVIIa, F1+2, and TAT versus baseline. However, in the ATRA + Tam groups, hypercoagulation markers were decreased compared with Tam alone. These results suggest that in selected conditions, pre-operative ATRA may modulate the hypercoagulable state of breast cancer patients.

Biological activity of all-trans-retinoic acid with and without tamoxifen and alpha-interferon 2a in breast cancer patients.

In addition to suppressing breast cancer cell growth, retinoids potentiate growth inhibition in human breast cancer when tested in vitro and in vivo with tamoxifen and/or interferon. The purpose of this study was to ascertain the biologic effects of all-trans-retinoic acid (ATRA) administered alone and with tamoxifen +/- interferon and to identify the relationship between ATRA plasma concentrations and optimal biological dose (the lowest dose that produces a biological response). Three consecutive groups of 15 patients with locally advanced operable breast cancer were treated, in accordance with good clinical practice (GCP) requirements, with ATRA at 3 dose levels alone or with tamoxifen +/- alpha-interferon 2a at flat doses. After 3 weeks, the tumors were surgically removed. Biological parameters measured at the beginning (in biopsy tissue) and end (in surgical tissue) of the study were compared. The optimal biological dose for ATRA was 15 mg/m2/day. Treatments influenced tumor grade but not cell cycle kinetics (G0-G1 phase) or proliferation (Ki67 levels). ATRA induced progesterone receptors independent of dose level and co-administered drugs, but did not induce estrogen receptors when administered alone. Retinoic acid receptor (RAR)-alpha was not affected by treatment and RAR-alpha was moderately influenced whereas RAR-beta (concomitantly with transforming growth factor-beta) was induced in 33% of patients by ATRA alone. ATRA pharmacokinetics were dose- and time-dependent. Neither the ATRA + tamoxifen nor the ATRA + tamoxifen + interferon combinations potentiated the ATRA-induced biological changes. Future studies evaluating the role of RAR-beta as a biological marker of retinoid activity are warranted.

Retinoid receptors: pathways of proliferation inhibition and apoptosis induction in breast cancer cell lines.

In this study we investigated the effects of several selective agonist retinoids (specific for RAR alpha, RAR beta, RAR gamma, and RXR alpha, respectively) on the proliferation and apoptosis of human breast cancer cell lines. All these retinoids inhibit proliferation through apoptosis induction, but with some differences among the tested molecules and the three cell lines. In particular, estrogen receptor positive (ER+) cells display a higher sensitivity to RARs selective compounds, the RAR alpha selective compound being the most effective agent, while estrogen receptor negative (ER-) cells show a greater responsiveness to the RXR alpha selective retinoid. In all tested cell lines a potent antiproliferative and apoptotic effect was also displayed by a high dose of the RAR gamma selective compound. The apoptosis induction is associated with bcl-2 down-regulation, while p53 expression is not modified by any retinoid. Only in one cell line (ZR-75.1), after RAR alpha selective retinoid treatment is there an induction of RAR beta: therefore not only RAR beta induction but also other mechanisms may contribute to the growth inhibitory effect of retinoids in tested breast cancer cell lines.

Retinoids in lung cancer chemoprevention and treatment.

In this review, we aim to synthesize the emerging picture of retinoids in lung cancer through a summary of ongoing investigations in biology, chemoprevention and therapy settings, in an attempt to clarify the possible role of these agents in such a disease. Early work in head and neck cancer has evidenced the capability of retinoids to interrupt field carcinogenesis by reversing premalignant lesions and decreasing the incidence of second primary tumors (SPTs). At this time, the completed randomized trials in lung cancer have failed to demonstrate an evident chemopreventive effect of the tested agents on different study end points, although both a marginally significant benefit of retinol palmitate in time-to-development rates for smoke-related SPTs and a potential preventive effect of retinol supplementation against mesothelioma in selected populations of asbestos-exposed workers have been recently reported. Concerning the role of retinoids in lung cancer treatment, a moderate activity of 13-cis-retinoic acid (13cRA) or all-transretinoic acid (ATRA) as single agents has been reported in small series of advanced, mostly pretreated lung cancer patients. More encouraging findings derive from combination studies, in which retinoids, especially ATRA, are added to either alpha-interferon or chemotherapy and radiotherapy. Major recent advances have been made towards the understanding of retinoids mechanisms of action; at this regard, the role of RAR-beta basal or treatment-induced levels seems to be of particular interest as intermediate end point and/or independent prognostic factor, besides their known importance in lung carcinogenesis. Future research for chemopreventive and therapeutic programs with retinoids in lung cancer should be focused on the investigation of new generation compounds with a specificity for individual retinoid nuclear receptors. Such selective molecules may have a greater activity against lung cancer, with a more favourable toxicity profile, as recently suggested by our preliminary data on Ro 41-5253.

Dose-intensive first-line chemotherapy with epirubicin and continuous infusion ifosfamide in adult patients with advanced soft tissue sarcomas: a phase II study.

This phase II study was designed to verify the activity and safety of an intensive epirubicin/ifosfamide schedule in untreated soft tissue sarcoma (STS) patients by using both the agents at the identified maximal tolerated doses. 39 adult patients were treated with epirubicin at 55 mg/m2, on days 1 and 2 (total dose per cycle 110 mg/m2) combined with ifosfamide at 2.5 g/m2 days 1-4 (total dose per cycle 10 g/m2), with equidose mesna uroprotection and G-CSF support. Treatment was given on an ambulatory basis, at 3-week intervals. The overall objective response (OR) rate was 59% (95% confidence interval, CI, 43-72%), with 5 complete responses (13%) at 18 partial responses (46%); 12 partial responders were rendered disease-free following surgery. The median survival time was 19 months, being 23 and 13 months, respectively, for responding and non-responding patients. The median time to response was 40 days (range 21-60). Treatment-related toxicity was overall acceptable. The OR of 59% was the highest ever reported in our consecutive studies in advanced STS, confirming that improved therapeutic efficacy can be obtained with intensified regimens in such a disease; both the response duration and survival were also longer. The observed activity proved to be interesting with regard to the high response rate in the lung (86%), as well as the proportion of patients rendered disease-free by early surgery after the achievement of a partial response (55%). Both these findings may be important in the multimodality approach to patients with lesions potentially resectable for cure.

Different effects of the treatment with AGN 193836 and 9-cis-retinoic acid in breast cancer cells.

Retinoid effects have been well studied in different cellular models, and their in vitro action on breast cancer is well known. Much less is known about the function of the different retinoid receptors in mediating retinoid activity in this and other cellular models. In order to better understand these biological mechanisms, several synthetic compounds have been produced, that have specific binding affinity for selected nuclear receptors, and their effect has been evaluated and confronted with that of classic compounds able to bind to different receptors. The aim of this study was the evaluation of the biological activities in breast cancer cell lines of one of these new compounds, AGN 193836, with a very selective binding affinity (selective agonist retinoid) for one single retinoic acid receptor (RAR alpha), in respect to a classic retinoid able to bind to a broad spectrum of retinoic acid receptors (pan-agonist retinoid), 9cRA. Our results clearly indicate that the selective retinoid retains most of the biological activities of the pan-agonist compound, but its effect is probably aggravated by fewer side-effects in vivo: This evidences indicate that selective-agonist retinoids are an interesting research field for the future, not only because of their speculative interest, but also in view of future clinical applications.

RARalpha antagonist Ro 41-5253 inhibits proliferation and induces apoptosis in breast-cancer cell lines.

Ro 41-5253 is a RARalpha-selective antagonist that binds RARalpha but does not induce transcriptional activation and does not influence RAR/RXR heterodimerization and DNA binding. This retinoid inhibits proliferation and induces apoptosis in MCF-7 and ZR-75.1 estrogen-receptor-positive breast-carcinoma cells in a dose-dependent way. The anti-proliferative effect is more evident in ZR-75.1 cells than in MCF-7 cells and is probably mediated by anti-AP1 activity, a mechanism known to be implied in the action of several retinoids. In the induction of apoptosis also ZR-75.1 cells are more sensitive to treatment with Ro 41-5253 than MCF-7 cells. In ZR-75.1 cells an apoptotic/hypodiploid DNA peak is already evident after 2 days of incubation, whereas in MCF-7 cells it appears only after 4 days. The highest percentage of apoptotic cells, for both cell lines, is reached after 6 days of treatment. The apoptosis pathway is p53-independent and bcl-2 downregulation seems to be correlated with an increase in TGF-beta1 protein. The MDA-MB-231 estrogen-receptor-negative cell line is poorly responsive to Ro 41-5253 treatment, both in terms of proliferation inhibition and apoptosis induction. Ro 41-5253 has proliferation-inhibiting and apoptosis-inducing properties that are not mediated by transcriptional activation from retinoic-acid response elements. This retinoid antagonist seems to be a compound that exerts an anti-tumor activity but does not induce the toxic side effects of retinoids and might, therefore, be considered as a candidate for cancer therapy.

Synergistic effect between doxorubicin and a low dose of all-trans-retinoic acid in MCF-7 breast cancer cell line.

The effect of doxorubicin (DOX) used in combination with a low dose (10(-7) M) of all-trans-retinoic acid (tRA) was tested on MCF-7 breast carcinoma cell line. Both drugs are able to inhibit cell proliferation in these cells in a dose-dependent way. The combined treatment with DOX and tRA was more effective in inhibiting cell growth than each of the two compounds alone. This was evidenced in the following experimental conditions: pre-treatments with tRA, for 72 h or 18 h, before DOX incubation; post-treatment with tRA for 18 h after DOX incubation. A consistent synergism was reached by 72 h pre-treatment with tRA and also with brief pre- and post-treatments, but only if tRA was also present during DOX incubation (co-treatments). The mechanisms involved in this interaction between chemotherapeutics and differentiating agents are as yet unclear and should be evaluated further.

Effects of all-trans-retinoic acid and 13-cis-retinoic acid on breast-cancer cell lines: growth inhibition and apoptosis induction.

Interest has been increasingly focused on all-trans-retinoic acid (tRA) and 13-cis-retinoic acid (13cRA) in cancer chemoprevention and treatment. We have examined the in vitro effects of these 2 retinoic acids (RAs) on human breast-cancer cell lines MCF-7 and ZR-75.1 (both estrogen-receptor-positive, ER+) and MDA-MB-231 (estrogen-receptor-negative, ER-), in terms of inhibition of proliferation and induction of apoptosis. Both retinoic acids exerted an evident dose-dependent growth inhibition, although in the ER- cell line the anti-proliferative effect was obtained only with the highest concentration used; the anti-proliferative activity of tRA was more evident than 13cRA on all 3 tested cell lines. tRA and 13cRA induced apoptosis in MCF-7 and MDA-MB-231 cell lines, but not in ZR-75.1. The apoptotic phenomenon was clearly time-dependent, and in our experience it was not related to the arrest in a specific phase of cell cycle. After treatment with RAs the levels of bcl-2 were reduced in MCF-7, while in ZR-75.1 and in MDA-MB-231 no treatment-related modifications were observed. An analysis of estrogen-receptor status, used as a marker of differentiation, demonstrated that after treatment with RAs the levels of estrogen receptor (ER) decreased in ZR-75.1 only. Our study indicates that the anti-proliferative effects of RAs are sustained by induction of apoptosis in MCF-7 and MDA-MB-231 cells, while in ZR-75.1 cells an induction of differentiation without apoptosis was the prevalent mechanism of growth inhibition. Our results encourage further studies on in vivo effects of these retinoids in breast cancer.

Associations of retinoids, tamoxifen and alpha-interferon 2a in human breast cancer.

We evaluated in vitro the potentiating and/or synergistic antitumor effects among retinoids (all-trans-retinoic acid, tRA, and 13-cis-retinoic acid, 13cRA), alpha-interferon 2a (alpha-IFN 2a) and tamoxifen (TAM) on both estrogen receptor positive (ER(+)) and negative (ER(-)) human breast cancer cell lines. In our experimental model, the three studied agents showed antiproliferative activity in ER(+) cell lines MCF-7 and ZR-75.1, while alpha-IFN 2a was the most effective drug in the ER(-) cell line MDA-MB-231. Retinoids and TAM exerted a strong apoptotic effect in MCF-7 cells, while such an effect was obtained in MDA-MB-231 cells by alpha-IFN 2a. The tested combinations displayed different effects in the different evaluated cell lines: i) in MCF-7 cells tRA + TAM showed additive activity, both tRA + alpha-IFN 2a and TAM + alpha-IFN 2a association displayed a synergistic effect, and a further potentiation of the antiproliferative action was detected with the triple combination; ii) in ZR-75.1 cell line an additive activity was showed by tRA + TAM and TAM + alpha-IFN 2a, while tRA + alpha-IFN 2a produced synergistic action; iii) in MDA-MB-231 cell line only alpha-IFN 2a displayed a strong antiproliferative effect, and no significant potentiation was exerted by any drug association. The feasibility and activity of such combinations have been tested in two pilot clinical trials on patients with metastatic breast cancer: both the tested associations were tolerable, with good treatment compliance and low toxicity. The different antiproliferative and apoptotic effects observed in vitro on apparently similar breast cancer cell lines prompted us to a further investigation of the mutual biological modulations of these drug combinations, in view of a better selection of patients who might potentially benefit from these treatments.

Paclitaxel (taxol) in pretreated, relapsed and/or metastatic adult soft tissue sarcomas (STS).

Twelve patients suffering from recurrent or metastatic, previously treated, STS were given paclitaxel as a 3-hour infusion, with prophylactic medication, in 3-week cycles, at two different dosages: 135 mg/m(2) or 175 mg/m(2) in patients pretreated with less than or equal to 2 or greater than or equal to 3 chemotherapy regimens, respectively. A total of 39 courses was given (median 3, range 2-5). Overall, treatment was relatively well tolerated, major toxicity consisting of grade 2-3 neutropenia (33%); The adopted schedule was feasible in day-hospital setting, with satisfactory patient compliance. Only a partial response was obtained (8%), lasting 4 months; six patients had stable disease and five progressed while on treatment. Our results suggest a lack of activity of paclitaxel in this tumor type. However, the very advanced stage of disease and the strong pretreatment in the evaluated series probably partially account for some of the resistance and such a poor response rate. Further studies might be appropriate with paclitaxel, alone or in combination with other agents, on selected patients in less advanced stage of disease.

Phase II study of continuous-infusion high-dose ifosfamide in advanced and/or metastatic pretreated soft tissue sarcomas.

BACKGROUND: Ifosfamide has important activity in pretreated soft tissue sarcomas (STS), and recent data support a clinically significant dose-response relationship for this agent. Administration by continuous infusion and hematopoietic support have rendered dose intensification regimens possible by reducing both hematologic and non-hematologic toxicities. The optimal dose and schedule of ifosfamide when given at high doses remain to be defined. In a previous phase I study, we demonstrated the feasibility of a continuous infusion (c.i.) high-dose ifosfamide (HDI) regimen in the ambulatory setting for patients with advanced solid tumors. The objective of the present phase II study was to assess the antitumor activity and toxicity of such a schedule in patients with advanced pretreated STS. PATIENTS AND METHODS: Thirty-eight patients with advanced and/or metastatic STS, all pretreated with an anthracycline with or without standard-dose ifosfamide, were treated. Ifosfamide was given by c.i. at a dose of 3.5 g/m2/day over four consecutive days, with equidose mesna uroprotection over five days. G-CSF was added at a dose of 200 micrograms/m2/day subcutaneously from day 6 to day 12. Cycles were repeated every three weeks in the outpatient setting. RESULTS: A total of 159 cycles of therapy were given (median 4 per patient, range 3-6). Treatment compliance was generally satisfactory. The major toxicity was hematologic, with six febrile neutropenic episodes requiring hospitalisation and parenteral antibiotics. Acute renal failure occurred in one patient after three cycles of therapy; central nervous system toxicity was mild. An overall response rate of 39% was observed (95% confidence interval, 26% to 55%), with one complete and 14 partial remissions. All but one of the responder patients had previously received standard-dose ifosfamide. The median response duration was nine months (range 5-21+ months), and the overall median survival ranged from 6-30+ months (median 13 months). CONCLUSIONS: High-dose ifosfamide is an active regimen in anthracycline-pretreated STS. Future clinical trials should be aimed at evaluating the impact of different administration schedules on clinical response and outcome. The potential role of HDI as front-line chemotherapy as well as in the adjuvant treatment of STS needs to be investigated in randomized trials.

Efficacy of the association of 13-cis-retinoic acid (13cRA) and alpha-interferon 2a (alpha-IFN 2a) in moderate-severe cervical intraepithelial neoplasia (CIN II-III): a pilot study.

Recent in vitro studies have suggested a possible therapeutic synergism between alpha-IFN 2a and 13cRA in certain neoplasias, while encouraging in vivo findings strongly support the enhanced effectiveness of the two agents when used in combination. The specific aim of our study was to evaluate the efficacy and the toxicity of the association of 13cRA and alpha-IFN 2a in patients with CIN II and CIN III who refused surgical treatment. Twenty-one patients (aged between 25 and 58 years), of which 14 were CIN II and 7 CIN III, entered the study. 13cRA (orally at 0.5-1 mg/Kg/day) and alpha-IFN 2a (intramuscular at 3x10(6) I.U./day for the first 15 days, then 3 times/week for the following four weeks) were administered simultaneously for eight consecutive weeks. 13/21 (62%) histologically verified objective responses (6 complete and 7 partial) were achieved. We also obtained 8 stable diseases. Compliance was generally good and no delays in therapy due to toxicity were recorded (except for two patients presenting WHO degree III cutaneous and mucosal toxicity which regressed one week after suspending treatment). Human Papilloma Virus (HPV) was initially detected in 16/21 (76%) patients, while HPV negativization after treatment was observed in 3/16 (19%). Although preliminary and requiring long-term assessment, the encouraging results of this study confirm the need for further investigation on the role of systemic medical therapy in the treatment of CINs.

N-CAM and N-cadherin expression during in vitro chondrogenesis.

Mesenchymal cell condensation in chick limb bud occurs at embryonic stage 22 and is the starting event of chondrogenesis. Several mechanisms have been proposed to have an active role in the induction of this process. Among them the establishment of cell-cell contacts represents a key event. Here we have investigated the modulation of N-CAM and N-cadherin gene expression in an in vitro culture system which allows chondrocyte differentiation to proceed from condensation of prechondrogenic cells to hypertrophic chondrocytes and eventually to osteoblast-like cells. Both Northern and Western blots demonstrated that they were developmentally regulated in differentiating chondrocytes. Both cell adhesion proteins were detectable in prechondrogenic cells, increased during cell aggregation, became undetectable in hypertrophic chondrocytes, and resulted in reexpression during their maturation to osteoblast-like cells. The timing of appearance of N-cadherin and N-CAM suggests that N-cadherin initiates the in vitro cell condensation thereafter stabilized by N-CAM. In agreement with the above findings, the immunolocalization of these molecules in the cell aggregates revealed that N-CAM and N-cadherin appear, after 12 h of suspension culture, on the surface of all cells at the membrane regions participating in cell-cell contacts. At 72 h N-CAM became restricted to cells at the aggregate periphery, while N-cadherin was detected both in type II collagen-negative and -positive regions. At this time of culture, electron microscopy shows a number of cell-cell contacts at the perifery of the cell aggregates, while only a few of them were observed in the aggregate interior. The expression of N-CAM and type II collagen by chondrocytes was mutually exclusive and a sorting out between differentiating and nondifferentiating cells occurred.