Determinants of gold nanoparticle interactions with Proteins: Off-Target effect study.

Photothermal therapy is one of the promising approaches toward cancer treatment. To date, several compounds have been developed for this application, among which nanoparticles are attracting ever-increasing attention. One of the obstacles in developing efficient photothermal nanoparticle agents is their off-target effect which is mainly mediated via non-specific interactions with proteins. Such interaction not only reduces the bioavailability of the agent but also will cause protein aggregation that can be lethal. So, gaining knowledge on the mechanisms mediating such interactions will facilitate development of more effective agents. Our last studies showed the mechanism of action of two modified gold nanoparticles, folic acid functionalized gold nanoparticles (FA-AuNPs) and gold shelled Fe3O4 nanoparticles (AuFeNPs), as photothermal agents. In the current work, we focus on the interaction of these two NPs with human serum albumin (HSA) and human hemoglobin (Hb) as model proteins. The complex formation between NPs and proteins was investigated by fluorescence spectroscopy, dynamic light scattering and circular dichroism. Our data distinguishes the very distinct mode of interaction of charged and neutral NPs with proteins. While the interaction of neutral AuFeNP to proteins is protein dependent, charged nanoparticles FA-AuNP interact indistinguishably with all proteins via electrostatic interactions. Moreover, complexes obtained from FA-AuNPs with proteins are more stable than that of AuFeNP. However, the secondary structure content of proteins in the presence of NPs indicates the insignificant effect of NPs on the secondary structure of these proteins. Our data propose that the charge functionalization of the NPs is an effective way for modulating the interaction of nanoparticles with proteins.

Detection of Proteins in Polyacrylamide Gels via Prelabeling by Isatoic Anhydride.

Fluorescent methods for staining of proteins in polyacrylamide gels are obtaining increasing attention due to their advantages including high sensitivity and rapidness. In the present chapter we describe, step by step, a rapid and inexpensive fluorescent prelabeling method based on derivatization of proteins with isatoic anhydride. This method allows researchers to detect less than 2 ng of standard proteins per band in less than 15 min. Although this method is sensitive, inexpensive, rapid, compatible with most of common biological reagents and is able to detect proteins in crude cell extract, covalent binding of isatoic anhydride to protein lysine residues makes it unsuitable for processes in which post-electrophoresis analysis is required. Moreover, isatoic anhydride derivatization induces a small band broadening.

Vitamin B12 Inhibits Tau Fibrillization via Binding to Cysteine Residues of Tau.

Two mechanisms underlie the inhibitory/acceleratory action of chemical compounds on tau aggregation including the regulation of cellular kinases and phosphatases activity and direct binding to tau protein. Vitamin B12 is one of the tau polymerization inhibitors, and its deficiency is linked to inactivation of protein phosphatase 2A and subsequently hyperphosphorylation and aggregation of tau protein. Regarding the structure and function of vitamin B12 and tau protein, we assumed that vitamin B12 is also able to directly bind to tau protein. Hence, we investigated the interaction of vitamin B12 with tau protein in vitro using fluorometry and circular dichrosim. Interaction studies was followed by investigation into the effect of vitamin B12 on tau aggregation using ThT fluorescence, circular dichroism, transmission electron microscopy, and SDS-PAGE. The results indicated that vitamin B12 interacts with tau protein and prevents fibrillization of tau protein. Blocking the cysteine residues of tau confirmed the cysteine-mediated binding of vitamin B12 to tau and showed that binding to cysteine is essential for inhibitory effect of vitamin B12 on tau aggregation. SDS-PAGE analysis indicated that vitamin B12 inhibits tau aggregation and that tau oligomers formed in the presence of vitamin B12 are mostly SDS-soluble. We propose that direct binding of vitamin B12 is another mechanism underlying the inhibitory role of vitamin B12 on tau aggregation and neurodegeneration.

Sensitive detection of proteins in polyacrylamide gel via isatoic anhydride derivatization: Introduction of a low-cost fluorescent prelabeling procedure.

Here, we introduce isatoic anhydride as a sensitive and commodious fluorescent prelabel for detection of proteins in one-dimensional polyacrylamide gels. High reactivity of isatoic anhydride with nucleophiles in mild alkaline environments makes it an appropriate tag for labeling of biomolecules. In this study, we show that preelectrophoresis labeling of proteins with isatoic anhydride for few minutes at room temperature allows detection of 2-4 ng of standard proteins, BSA and lysozyme, per band. Proteins were successfully labeled in the presence of a wide range of common biological reagents and in crude cell extract. The labeled proteins have the same electrophoretic migration in comparison to unlabeled proteins; however the application of saturation labeling method results in slight band broadening. Compatibility of the method with downstream processes was assessed by tryptic digestion of labeled proteins and study of peptide mixture using gel electrophoresis which revealed partial digestion of labeled proteins due to lysine modification. The present procedure is sensitive, rapid, and inexpensive and is a promising alternative for current protein staining procedures, where downstream processes are not desired.

Trichloroacetic acid treatment as a tricky way for rapid purification of 1N/4R tau protein.

Tau protein consists of six different isoforms and each one has particular physiological roles. In order to analyze the specific function of each single isoforms, large quantity of highly purified tau isoforms is essential. Many studies have been done to purify tau isoforms by heat treatment, followed by perchloric acid and glycerol precipitation. We found out that 1N/4R tau is soluble in glycerol, that is why mentioned methods do not work for purifying this isoform. In this study, large amounts of active and highly purified (97%) 1N/4R tau protein has been prepared by utilization of trichloroacetic acid as precipitating agent.