Expressão e purificação de proteinas relacionadas a epilepsia / Expression and purification of epilepsy related proteins

AUTOR(ES)

Marcelo Jun Murai

DATA DE PUBLICAÇÃO

2007

RESUMO

Non-ion channel genes, as LGI1 and EFHC1, have been shown to indirectly affect ion channel currents in genetically determined epilepsy syndromes. LGI1 (Leucine-rich, glioma inactivated gene 1) is linked to a rare form of partial epilepsy (autosomal dominant partial epilepsy with auditory features, ADPEAF). Recently, LGI1 protein was associated with ADAM22 in a complex that regulates synaptic transmission. The mutated form of LGI1 is incapable of binding to ADAM22, leading to a loss of function mechanism causing ADPEAF. EFHC1 is mutated in some families with juvenile myoclonic epilepsy (JME). It has been observed that EFHC1 transfected cells have a higher rate of apoptosis; therefore, it seems that EFHC1 protein could be involved in programmed cell death. We have successfully cloned and expressed the full form (AA 1-557) and C-terminal epitempin domain of human LGI1 (AA 224-557); and the N-terminus (AA 78-364; named EFHC1N), comprasing two DM10 domains in tandem, and the C-terminus portion of human EFHC1 (AA 403-640; named EFHC1C), comprising one DM10 domain and the EF-hand motif. Several fusion constructs were tested with full LGI1 (GST, Trx and SUMO) and C-terminal half (GST, Trx, NusA, MBP and SUMO) in different Escherichia coli strains. Soluble protein was obtained with NusA-LGI1C and MBP-LGI1C, but only MBP-LGI1C was captured by affinity amilose in the presence or absence of chaperonine GroEL. Despite the fact that we suceffuly established a purification protocol for MBP-LGI1C, tag cleavage presented low yield. Dinamic light scattering and SAXS showed that LGI1C fused to MBP was strongly aggregated. Furthermore, the N- and C-terminal of EFHC1 were cloned with SUMO fusion and showed high solubility in bacteria. These constructions were captured by nickel affinity chromatography and submitted to cleavage reaction. Near complete cleavage was achieved with EFHC1C, but no cleavage was obtained with EFHC1N. SUMO tag was separeted from EFHC1Cand a final purification step was performed. Circular dichroism spectroscopy showed that EFHC1C is composed mainly by ?-helices and transition temperature in the presence or absence of reducing agent DTT was 54.5ºC, indicating high stability. Dynamic light scattering and SAXS showed that EFHC1C is in a monodisperse state and presents a prolate shape. EFHC1N presents two different populations of proteins, as determined by SAXS and size exclusion chromatography

ASSUNTO(S)

juvenile myoclonic epilepsy epilepsias parciais partial epilepsies epilepsia mioclonica juvenil

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