Preparation of an engineered safer immunotoxin against colon carcinoma based on the ribotoxin hirsutellin A

Immunotoxins are chimeric proteins composed of an antibody domain that specifically directs the action of the toxic domain, resulting in the death of the targeted cells. Over recent years, immunotoxins have been widely studied and the number of different constructions has increased exponentially. Protein engineering has allowed the design of optimized versions of immunotoxins with an improved tumor binding affinity, stability or cytotoxic efficacy, although sometimes this has compromised the safety of the patient in terms of undesirable adverse secondary reactions. A triple mutant at three Trp residues (HtA3DW) of the ribotoxin hirsutellin A retains its specific ribonucleolytic activity, although cell internalization capacity is lacking.This toxin variant has been fused to the single chain variable fragment A33 (scFvA33). This immunoconjugate (IMTXA33HtA3DW) was produced in the methylotrophic yeast Pichia pastoris and purified using nickelnitrilotriacetic acid affinity chromatography. Both target and toxic domains were characterized. The immunotoxin showed an exquisite specific binding against GPA33-positive culture cells, which results in the death of the targeted cells because of specific ribonucleolytic activity against ribosomes of the engineered hirsutellin A variant. IMTXA33HtA3DW represents a promising structure in the search for an improved immunotoxin without compromising the safety of patients.

Papel de C3G y p38α en la regulación de la migración, invasión tumoral en carcinoma de colon. Función de fibulina 3

Colorectal cancer (CRC) represents the third most common cancer type and the second leading cause of cancer-related death in the western world. CRC results from the accumulation of both acquired genetic and epigenetic changes that transform normal glandular epithelium into adenocarcinoma (Lao and Grady 2011), affecting several genes such as Apc, K-ras, dcc/Smad4 and p53 or DNA mismatch repair genes (Pancione et al. 2012). p38 MAPKs are a subfamily of Serine-Threonine kinases activated by different stimuli that control fundamental cellular processes such as cell growth, proliferation, differentiation, migration and apoptosis (Dhillon et al. 2007, Nebreda and Porras 2000, Wagner and Nebreda 2009). There are four p38 MAPKs isoforms in mammals: α, β, δ and γ. p38α MAPK is ubiquitously expressed and is the most abundant isoform (Cuenda and Rousseau 2007). p38α is involved in the regulation of many cellular functions, among them, cell migration and invasion. In cancer, it can act as either a promoter or a suppressor of tumor growth, playing different roles during tumor progression (del Barco Barrantes and Nebreda 2012). C3G is a guanine nucleotide exchange factor (GEF) mainly for the Ras family members: Rap1 (Gotoh et al. 1995) and R-Ras (Gotoh et al. 1997), but it can also act through GEF independent mechanisms. C3G regulates several cellular functions such as cell death, adhesion, migration and invasion (Radha et al. 2011). In collaboration with Dr. Carmen Guerrero’s group (Centro del Investigación del Cáncer de Salamanca), our group has found a new functional relationship between C3G and p38α MAPK involved in the regulation of cell death in MEFs (Gutierrez-Uzquiza et al. 2010) and in the chronic myeloid leukemia (CML) K562 cell line (Maia et al. 2009). Moreover, C3G and p38α act through a common regulatory pathway to control cell adhesion in K562 cells regulating focal adhesion proteins (Maia et al. 2013)...