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( Lita Meilina ),( Sri Budiarti ),( Apon Zaenal Mustopa ),( Huda Shalahudin Darusman ),( Lita Triratna ),( Muhammad Ajietuta Nugraha ),( Muhammad Sabiq Bilhaq ),( Ratih Asmana Ningrum ) 한국미생물생명공학회(구 한국산업미생물학회) 2021 한국미생물·생명공학회지 Vol.49 No.1
Type I Interferons (IFNα) are known for their role as biological anticancer agents owing to their cell-apoptosis inducing properties. Development of an appropriate, cost-effective host expression system is crucial for meeting the increasing demand for proteins. Therefore, this study aims to develop codon-optimized IFNα-2b in L. lactis NZ3900. These cells express extracellular protein using the NICE system and Usp<sub>45</sub> signal peptide. To validate the mature form of the expressed protein, the recombinant IFNα-2b was screened in a human colorectal cancer cell line using the cytotoxicity assay. The IFNα-2b was successfully cloned into the pNZ8148 vector, thereby generating recombinant L. lactis pNZ8148-SPU<sub>sp45</sub>-IFNα-2b. The computational analysis of codon-optimized IFNα-2b revealed no mutation and amino acid changes; additionally, the codon-optimized IFNα-2b showed 100% similarity with native human IFNα-2b, in the BLAST analysis. The partial size exclusion chromatography (SEC) of extracellular protein yielded a 19 kDa protein, which was further confirmed by its positive binding to anti-IFNα-2b in the western blot analysis. The crude protein and SEC-purified partial fraction showed IC<sub>50</sub> values of 33.22 μg/ml and 127.2 μg/ml, respectively, which indicated better activity than the metabolites of L. lactis NZ3900 (231.8 μg/ml). These values were also comparable with those of the regular anticancer drug tamoxifen (105.5 μg/ml). These results demonstrated L. lactis as a promising host system that functions by utilizing the pNZ8148 NICE system. Meanwhile, codon-optimized usage of the inserted gene increased the optimal protein expression levels, which could be beneficial for its large-scale production. Taken together, the recombinant L. lactis IFNα-2b is a potential alternative treatment for colorectal cancer. Furthermore, its activity was analyzed in the WiDr cell line, to assess its colorectal anticancer activities in vivo.
Mohamed Sahrul Tamzil,Yuzer Alfiko,Andhika Faisal Mubarok,Sigit Purwantomo,Suwanto Antonius,Budiarti Sri 한국생물공학회 2021 Biotechnology and Bioprocess Engineering Vol.26 No.4
Explant contamination due to Agrobacterium overgrowth after the co-cultivation stage is a common problem in Agrobacterium-mediated plant transformation. In order to overcome this issue, this research undertook another approach by generating auxotrophic Agrobacterium tumefaciens AGL1 mutants to a specific amino acid by mini Tn5 transposon carrying spectinomycin resistance gene (spcR), and a total of 3315 AGL1 mutants were successfully constructed. Further screening identified 20 putative auxotrophs, and subsequently produced three mutants carried auxotroph properties to one specific amino acid. These mutants were AP5-2-51 threonine auxotroph, AP5- 5-2 cysteine auxotroph, and AP5-7-27 tryptophan auxotroph. The mini Tn5 insertion position in the Agrobacterium genome showed that the insertion position of AP5-2-51 mutants was in the thrB gene (AAK86584.1; locus tag At1D132_04580), while the other two mutants were unable to be identified by TAIL-PCR technique. The effectiveness of these three mutants to transfer T-DNA (pCAMBIA1300- eGFP-hpt) was examined on fresh Nipponbare rice callus explants with AGL1 as control. Results showed that transformation efficiency of the three mutants was not significantly different from AGL1 (Tukey HSD, α = 0.05). The percentages of Agrobacterium overgrowth in control and samples (three mutants) were also measured. Interestingly, the AP5-2-51 mutant indicated the highest ability to prevent overgrowth by reducing Agrobacterium growth to 1.11%, while the other two mutants suppressed the overgrowth to 15.56% (AP5-5-2) and 12.22% (AP5-7-27).