0000000000004049
AUTHOR
Jesus Poveda Ferriols
A preclinical model for skin sensitization prediction of antineoplasic drugs.
e15643 Background: Skin side effects are common manifestations of antineoplastic drugs that are frequently observed in early clinical trials. Therefore, there is a need to identify skin toxic agents before clinical development in order to predict severe skin manifestations. In many cases, skin toxicity is due to sensitization, a key immunologic process mediating redness, swelling and itching that can lead to more severe skin alterations. Methods: We adapted three skin cellular in vitro techniques for cutaneous drug sensitization assessment of the Organization for Economic Cooperation and Development (OECD, 2012) in order to predict antineoplastic drug skin sensitization: 1) Direct peptide …
Mechanisms of skin toxicity of paclitaxel: An in vitro preclinical assessment.
e15511 Background: Paclitaxel skin toxicity is a frequent side effect extensively evaluated in the clinical setting. However little is known about the preclinical mechanisms that lead to this toxicity. The endpoint of this study was to analyse the cutaneous mechanisms that drive paclitaxel toxicity in a preclinical model. Methods: Primary human keratinocytes were co-cultured with human dermal fibroblast in collagen gel under air-liquid interface conditions to generate a multilayered 3D epidermis. Paclitaxel was added to 3D epidermis at 0.3 µM, 3 µM and 30 µM and total RNA and protein was extracted after 24h of incubation. Markers of cell senescence (p21 and p53), anti-apoptotic mediators (…