High yield expression and purification of Aspergillus flavus uricase cloned in Pichia pink™ expression system.

In this research, for the first time, A. flavus uricase gene was cloned in pPink-UOX plasmid under strong alcohol oxidase promoter of Pichia pink expression system after codon optimization. After selecting the best uricase producing clone with an activity of 0.7 U/ml at the Flask level, a 5-L fermenter was used to increase the expression of the enzyme. Within 60 h, the fermentation process produced 1500 g of biomass from 4 L of semi defined culture media and expressed 2.5 g/L of the enzyme. The purity of recombinant uricase production using three consecutive DEAE Sepharose, CM Sepharose and Phenyl Sepharose columns was above 99%, which was confirmed by SDS-PAGE and RP-HPLC analyses. Size exclusion chromatography analysis showed that the purified enzyme has comparable heterogeneity to the Rasburicase. The yield of recombinant uricase production in this study was 63% and its specific activity was 24 U/mg. The high expression of recombinant uricase in the Pichia pink strain and the increased enzyme activity compared to the standard sample indicate the potential of therapeutic and diagnostic applications of recombinant uricase in the present study.

Targeting plasmodium α-tubulin-1 to block malaria transmission to mosquitoes.

Plasmodium ookinetes use an invasive apparatus to invade mosquito midguts, and tubulins are the major structural proteins of this apical complex. We examined the role of tubulins in malaria transmission to mosquitoes. Our results demonstrate that the rabbit polyclonal antibodies (pAb) against human α-tubulin significantly reduced the number of P. falciparum oocysts in Anopheles gambiae midguts, while rabbit pAb against human ß-tubulin did not. Further studies showed that pAb, specifically against P. falciparum α-tubulin-1, also significantly limited P. falciparum transmission to mosquitoes. We also generated mouse monoclonal antibodies (mAb) using recombinant P. falciparum α-tubulin-1. Out of 16 mAb, two mAb, A3 and A16, blocked P. falciparum transmission with EC50 of 12 µg/ml and 2.8 µg/ml. The epitopes of A3 and A16 were determined to be a conformational and linear sequence of EAREDLAALEKDYEE, respectively. To understand the mechanism of the antibody-blocking activity, we studied the accessibility of live ookinete α-tubulin-1 to antibodies and its interaction with mosquito midgut proteins. Immunofluorescent assays showed that pAb could bind to the apical complex of live ookinetes. Moreover, both ELISA and pull-down assays demonstrated that insect cell-expressed mosquito midgut protein, fibrinogen-related protein 1 (FREP1), interacts with P. falciparum α-tubulin-1. Since ookinete invasion is directional, we conclude that the interaction between Anopheles FREP1 protein and Plasmodium α-tubulin-1 anchors and orients the ookinete invasive apparatus towards the midgut PM and promotes the efficient parasite infection in the mosquito.

The validation of artificial anti-monkeypox antibodies by in silico and experimental approaches.

As a result of smallpox immunization programs that ended more than 40 years ago, a significant portion of the world's population is not immune. Moreover, due to the lack of anti-monkeypox drugs and vaccines against monkeypox, the spread of this virus may be the beginning of another challenge. In this study, novel antibodies against monkeypox virus were modeled based on a heavy chain of human antibody and a small peptide fragment. Docking of modeled antibodies with C19L protein showed the range of docking energy, and root-mean-square deviation (RMSD) was from -124 to -154 kcal/mL and 4-6 angstrom, respectively. Also, docking of modeled antibodies-C19L complex with gamma Fc receptor type I illustrated the range of docking energy, and RMSD was from -132 to -155 kcal/ml and 5-7 angstrom, respectively. Moreover, molecular dynamics simulation showed that antibody 62 had the highest stability with the lowest energy level and RMSD. Interestingly, no modeled antibodies had immunogenicity, allergenicity, and toxicity. Although all of them had good stability, only antibodies 25, 28, 54, and 62 had a half-life of >10 h. Moreover, the interaction between C19L protein and anti-C19L antibodies (wild-type and synthetic) was evaluated by the SPR method. We found that KD in synthetic antibodies was lower than wild antibody. In terms of δH°, TδS°, and δG°, the results were consistent with binding parameters. Here, the lowest value of thermodynamic parameters was obtained for antibody 62. These data show that the synthetic antibodies, especially antibody 62, had a higher affinity than the wild-type antibody.