1.Backgrounds: The recent results of our research laboratory (Hu, 2013) has confirmed the early findings of an NIMH research team headed by Prof Chiueh (Andoh, Chock and Chiueh, 2002) that the exogenously administered human redox protein Trx (MW: 11.7 kDa; < 1 μM) can enter SH-SY5Y cells to produce its anti-apoptotic and cyto-protective effects against oxidative stress evoked by serum deprivation, neurotoxins and chemotherapeutics through a thiol-sensitive redox mechanism. The possible uptake and/or transport mechanisms of Trx are not fully understood at the present. 2.Objective: The present research aim is to investigate possible transport mechanisms for the human redox protein Trx to enter the SH-SY5Y cells for producing biological functions. The primary research goal is to create point mutations on His-tag Trx for searching by which mechanism of Trx to enter the cell membrane through a specific transport system. 3.Methods: We searched the functional sequence associated with the transportation of Trx by utilizing the bioinformatics analysis of Trx peptide sequence and synthesized His-tag Trx mutants for studying interactions between Trx and plasma membrane proteins. The end point was to detect the entry of exogenously administered His-tag Trx in SH-SY5Y cells by the western blotting, the immunocytochemistry and the confocal imaging. 4.Results: The present results show that (i) the extracellularly administered Trx (< 1μM) suppressed the etoposide (83 μM)-induced apoptosis in SH-SY5Y cells. We synthesized recombinant protein His-tag Trx to distinguish from the endogenous Trx in SH-SY5Y cells and thus verified that (ii) both the extracellularly administered Trx in oxidized and reduced form entered the cells in a dose-dependent manner and the entry of oxidized Trx were more than the reduced Trx. (iii) The extracellularly administered Trx localized in cell membrane, cytosol and cell nucleus. (iv) The mutations on the tyrosine-based sorting signal (Tyr49-X-X-Val52) blocked the entry of His-tag Trx. The modification of peroxisome membrane protein docking site (Phe27-X-X-X-Trp31) did not alter the entry of His-tag Trx from extracellular space to the cytosol. 5.Conclusions: The study utilized the bioinformatic analysis and point mutation technique to search the transport-related peptide on Trx protein, including (i) the tyrosine-based sorting signal (Tyr49-X-X-Val52) interacts with adaptor proteins in endocytosis and (ii) the peroxisome membrane docking site (Phe27-X-X-X-Trp31) for the translocation of cytosol proteins. The present results show that Trx entered the cells through endocytosis and subsequently entered nucleus to mediate the anti-oxidative cyto-protection. These results infer that the levels of Trx in cancer cells may also play a role in drug resistance.