The inclusion complex of 4-hydroxynonenal with a polymeric derivative of ß-cyclodextrin enhances the antitumoral efficacy of the aldehyde in several tumor cell lines and in a three-dimensional human melanoma model.

4-Hydroxynonenal (HNE) is the most studied end product of the lipoperoxidation process, by virtue of its relevant biological activity. The antiproliferative and proapoptotic effects of HNE have been widely demonstrated in a great variety of tumor cell types in vitro. Thus, it might represent a promising new molecule in anticancer therapy strategies. However, the extreme reactivity of this aldehyde, as well as its insolubility in water, a limiting factor for drug bioavailability, and its rapid degradation by specific enzymes represent major obstacles to its possible in vivo application. Various strategies can used to overcome these problems. One of the most attractive strategies is the use of nanovehicles, because loading drugs into nanosized structures enhances their stability and solubility, thus improving their bioavailability and their antitumoral effectiveness. Several natural or synthetic polymers have been used to synthesize nanosized structures and, among them, ß-cyclodextrin (ßCD) polymers are playing a very important role in drug formulation by virtue of the ability of ßCD to form inclusion compounds with a wide range of solid and liquid molecules by molecular complexation. Moreover, several ßCD derivatives have been designed to improve their physicochemical properties and inclusion capacities. Here we report that the inclusion complex of HNE with a derivative of ßCD, the ßCD-poly(4-acryloylmorpholine) conjugate (PACM-ßCD), enhances the aldehyde stability. Moreover, the inclusion of HNE in PACM-ßCD potentiates its antitumor effects in several tumor cell lines and in a more complex system, such as a human reconstructed skin carrying melanoma tumor cells.

Panobinostat activity in both bexarotene-exposed and -naïve patients with refractory cutaneous T-cell lymphoma: results of a phase II trial.

BACKGROUND: Panobinostat is a potent, oral pan-deacetylase inhibitor (pan-DACi) that increases the acetylation of proteins involved in multiple oncogenic pathways. Here, panobinostat is studied in bexarotene-exposed and -naïve patients with refractory cutaneous T-cell lymphoma (CTCL). PATIENTS AND METHODS: Patients with CTCL subtypes mycosis fungoides and Sézary syndrome who received ⩾2 prior systemic therapy regimens received panobinostat (20mg) three times every week. The primary objective was overall response rate (ORR) as determined by a combined evaluation of skin disease and involvement of lymph node and viscera. Disease progression was defined as an unconfirmed, ⩾25% increase in modified Severity Weighted Assessment Tool (mSWAT) compared with nadir. RESULTS: Seventy-nine bexarotene-exposed and 60 bexarotene-naïve patients were enrolled. Reductions in baseline mSWAT scores were observed in 103 patients (74.1%). The ORR was 17.3% in all patients in the primary analysis (15.2% and 20.0% in the bexarotene-exposed and -naïve groups, respectively). The median progression-free survival was 4.2 and 3.7 months in the bexarotene-exposed and -naïve groups, respectively. The median duration of response was 5.6 months in the bexarotene-exposed patients and was not reached at data cutoff in the bexarotene-naïve patients. Additional responses were observed when less-stringent progression criteria were used. The most common adverse events were thrombocytopenia, diarrhoea, fatigue and nausea. Thrombocytopenia and neutropenia were the only grade 3/4 adverse events in >5% of patients and were manageable. CONCLUSION: Despite a very conservative definition of disease progression, panobinostat demonstrated activity with a manageable safety profile in bexarotene-exposed and -naïve CTCL patients. ClinicalTrials.gov Identifier: NCT00425555.