biostudies-literatureTeo MYMMOSTI through the Science FundUCSI University through the PSIFMinistry of Education Malaysia through the Fundamental Research Grant Schemee11063https://www.ebi.ac.uk/biostudies/studies/S-EPMC8053384biostudies-literatureUnknown9<h4>Background</h4><i>KRAS</i> oncogenes harboring codon G12 and G13 substitutions are considered gatekeeper mutations which drive oncogenesis in many cancers. To date, there are still no target-specific vaccines or drugs available against this genotype, thus reinforcing the need towards the development of targeted therapies such as immunotoxins.<h4>Methods</h4>This study aims to develop a recombinant anti-m<i>KRAS</i> scFv-fused mutant <i>Hydra</i> actinoporin-like-toxin-1 (mHALT-1) immunotoxin that is capable of recognizing and eradicating codon-12 mutated k-ras antigen abnormal cells. One G13D peptide mimotope (164-D) and one G12V peptide mimotope (68-V) were designed to elicit antigen specific IgG titres against mutated K-ras antigens in immunised Balb/c mice. The RNA was extracted from splenocytes following ELISA confirmation on post-immunized mice sera and was reverse transcribed into cDNA. The scFv combinatorial library was constructed from cDNA repertoire of variable regions of heavy chain (V_H) and light chain (V_L) fusions connected by a flexible glycine-serine linker, using splicing by overlap extension PCR (SOE-PCR). Anti-m<i>KRAS</i> G12V and G13D scFvs were cloned in pCANTAB5E phagemid and superinfected with helper phage. After few rounds of bio-panning, a specific m<i>KRAS</i> G12V and G13D scFv antibody against G12V and G13D control mimotope was identified and confirmed using ELISA without any cross-reactivity with other mimotopes or controls. Subsequently, the anti-m<i>KRAS</i> scFv was fused to mHALT-1 using SOE-PCR and cloned in pET22b vector. Expressed recombinant immunotoxins were analyzed for their effects on cell proliferation by the MTT assay and targeted specificity by cell-based ELISA on <i>KRAS</i>-positive and <i>KRAS</i>-negative cancer cells.<h4>Results</h4>The V_H and V_L genes from spleen RNA of mice immunized with 164-D and 68-V were amplified and randomly linked together, using SOE-PCR producing band sizes about 750 bp. Anti-m<i>KRAS</i> G12V and G13D scFvs were constructed in phagemid pCANTAB5E vectors with a library containing 3.4 × 10⁶ and 2.9 × 10⁶ individual clones, respectively. After three rounds of bio-panning, the anti-m<i>KRAS</i> G12V-34 scFv antibody against G12V control mimotope was identified and confirmed without any cross-reactivity with other controls using ELISA. Anti-m<i>KRAS</i> G12V-34 scFv fragment was fused to mHALT-1 toxin and cloned in pET22b vector with expression as inclusion bodies in <i>E. coli</i> BL21(DE3) (molecular weight of ~46.8 kDa). After successful solubilization and refolding, the mHALT-1-scFv immunotoxin exhibited cytotoxic effects on SW-480 colorectal cancer cells with IC₅₀ of 25.39 μg/mL, with minimal cytotoxicity effect on NHDF cells.<h4>Discussion</h4>These results suggested that the development of such immunotoxins is potentially useful as an immunotherapeutic application against <i>KRAS</i>-positive malignancies.PeerJDevelopment of a single-chain fragment variable fused-mutant HALT-1 recombinant immunotoxin against G12V mutated <i>KRAS c</i>olorectal cancer cells.PMC8053384FRGS/1/2017/STG05/UCSI/03/202-02-22-SF0011Proj-In-FAS-061Hwang JSFong JYSong AALim RLHNg JJCIn LLATeo MYMfalseDevelopment of a single-chain fragment variable fused-mutant HALT-1 recombinant immunotoxin against G12V mutated <i>KRAS c</i>olorectal cancer cells.<h4>Background</h4><i>KRAS</i> oncogenes harboring codon G12 and G13 substitutions are considered gatekeeper mutations which drive oncogenesis in many cancers. To date, there are still no target-specific vaccines or drugs available against this genotype, thus reinforcing the need towards the development of targeted therapies such as immunotoxins.<h4>Methods</h4>This study aims to develop a recombinant anti-m<i>KRAS</i> scFv-fused mutant <i>Hydra</i> actinoporin-like-toxin-1 (mHALT-1) immunotoxin that is capable of recognizing and eradicating codon-12 mutated k-ras antigen abnormal cells. One G13D peptide mimotope (164-D) and one G12V peptide mimotope (68-V) were designed to elicit antigen specific IgG titres against mutated K-ras antigens in immunised Balb/c mice. The RNA was extracted from splenocytes following ELISA confirmation on post-immunized mice sera and was reverse transcribed into cDNA. The scFv combinatorial library was constructed from cDNA repertoire of variable regions of heavy chain (V_H) and light chain (V_L) fusions connected by a flexible glycine-serine linker, using splicing by overlap extension PCR (SOE-PCR). Anti-m<i>KRAS</i> G12V and G13D scFvs were cloned in pCANTAB5E phagemid and superinfected with helper phage. After few rounds of bio-panning, a specific m<i>KRAS</i> G12V and G13D scFv antibody against G12V and G13D control mimotope was identified and confirmed using ELISA without any cross-reactivity with other mimotopes or controls. Subsequently, the anti-m<i>KRAS</i> scFv was fused to mHALT-1 using SOE-PCR and cloned in pET22b vector. Expressed recombinant immunotoxins were analyzed for their effects on cell proliferation by the MTT assay and targeted specificity by cell-based ELISA on <i>KRAS</i>-positive and <i>KRAS</i>-negative cancer cells.<h4>Results</h4>The V_H and V_L genes from spleen RNA of mice immunized with 164-D and 68-V were amplified and randomly linked together, using SOE-PCR producing band sizes about 750 bp. Anti-m<i>KRAS</i> G12V and G13D scFvs were constructed in phagemid pCANTAB5E vectors with a library containing 3.4 × 10⁶ and 2.9 × 10⁶ individual clones, respectively. After three rounds of bio-panning, the anti-m<i>KRAS</i> G12V-34 scFv antibody against G12V control mimotope was identified and confirmed without any cross-reactivity with other controls using ELISA. Anti-m<i>KRAS</i> G12V-34 scFv fragment was fused to mHALT-1 toxin and cloned in pET22b vector with expression as inclusion bodies in <i>E. coli</i> BL21(DE3) (molecular weight of ~46.8 kDa). After successful solubilization and refolding, the mHALT-1-scFv immunotoxin exhibited cytotoxic effects on SW-480 colorectal cancer cells with IC₅₀ of 25.39 μg/mL, with minimal cytotoxicity effect on NHDF cells.<h4>Discussion</h4>These results suggested that the development of such immunotoxins is potentially useful as an immunotherapeutic application against <i>KRAS</i>-positive malignancies.2021-01-01T00:00:00Z20212024-10-15T22:28:37.796Z2022-02-10T09:23:32ZS-EPMC80533843395941010.7717/peerj.11063