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Keywords = inteins

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17 pages, 2298 KB  
Article
Intein-Mediated Reconstitution of Split Lumazine Synthase for Programmable Protein Nanocage Assembly
by Suyeon Shin, Ju Hwan Kim and Hansol Kim
Macromol 2026, 6(2), 39; https://doi.org/10.3390/macromol6020039 - 3 Jun 2026
Viewed by 499
Abstract
Background/Objectives: Protein nanocages are versatile platforms with potential applications in drug delivery, enzyme encapsulation, and bioreactor systems, owing to their precise self-assembly and excellent biocompatibility. However, most protein cage systems have limited accessibility to their internal space, which hinders the efficient encapsulation of [...] Read more.
Background/Objectives: Protein nanocages are versatile platforms with potential applications in drug delivery, enzyme encapsulation, and bioreactor systems, owing to their precise self-assembly and excellent biocompatibility. However, most protein cage systems have limited accessibility to their internal space, which hinders the efficient encapsulation of large molecules or complex proteins. Methods and results: In this study, we propose a programmable reassembly system by artificially splitting the monomer of lumazine synthase, a protein that naturally forms a nanocage through self-assembly. Using intein-mediated protein splicing, the self-assembly of the monomer was converted into a condition-dependent reaction, enabling the incorporation of large or functional biomolecules prior to the assembly stage. Furthermore, to achieve targeted delivery, an EGFR-binding affibody (EGFRAfb) was fused to the split monomer so that it is exposed on the cage surface after reassembly, thereby providing selective binding capability toward EGFR-expressing cells. Successfully reassembled nanocages were visualized, and the fluorescent proteins encapsulated within them were delivered to the target and activated in specific cells. Conclusions: Therefore, the programmable protein nanoplatform presented in this study can overcome the spatial limitations of conventional protein cages while allowing for precise control over both the timing of cage assembly and targeted molecular delivery. Full article
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27 pages, 1769 KB  
Review
Beyond Purification: Evolving Roles of Fusion Tags in Biotechnology
by Tsutomu Arakawa and Teruo Akuta
Curr. Issues Mol. Biol. 2025, 47(9), 768; https://doi.org/10.3390/cimb47090768 - 17 Sep 2025
Cited by 12 | Viewed by 6860
Abstract
Genetic fusion of a tag sequence to a target protein, or protein of interest (POI), is one of the most widely used technologies for recombinant expression. Tag-fusion proteins can enhance soluble expression, prolong half-life, increase binding avidity, and facilitate protein purification or refolding. [...] Read more.
Genetic fusion of a tag sequence to a target protein, or protein of interest (POI), is one of the most widely used technologies for recombinant expression. Tag-fusion proteins can enhance soluble expression, prolong half-life, increase binding avidity, and facilitate protein purification or refolding. In addition, tag-fusion proteins can be used to identify POI-binding partners through pull-down or immunoprecipitation assays. Beyond these classical applications, tags have evolved to serve as multifunctional tools, enabling real-time imaging, spatial localization, targeted delivery, and regulation of protein activity in living systems. Some engineered tags also allow conditional control, such as pH or ligand-dependent stabilization, thus expanding their utility in synthetic biology and therapeutic design. Here, we summarize protein-based and peptide-based tags, as well as methods for tag removal. While not fully comprehensive, this review aims to help researchers design suitable tag formats for specific goals. Full article
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16 pages, 2675 KB  
Article
Inteins at Eleven Distinct Insertion Sites in Archaeal Helicase Subunit MCM Exhibit Varied Architectures and Activity Levels Across Archaeal Groups
by Danielle Arsenault, Gabrielle F. Stack and Johann Peter Gogarten
DNA 2025, 5(3), 39; https://doi.org/10.3390/dna5030039 - 14 Aug 2025
Viewed by 1395
Abstract
Background/Objectives: Inteins are mobile genetic elements invading highly conserved genes across all domains of life and viruses. Five active intein insertion sites (MCM-a through e) had previously been identified and studied in the archaeal replicative helicase minichromosome maintenance (MCM) subunit gene mcm [...] Read more.
Background/Objectives: Inteins are mobile genetic elements invading highly conserved genes across all domains of life and viruses. Five active intein insertion sites (MCM-a through e) had previously been identified and studied in the archaeal replicative helicase minichromosome maintenance (MCM) subunit gene mcm, making MCM an ideal system for dissecting the dynamics of multi-intein genes. However, work in this system thus far has been limited to particular archaeal groups. To better understand the dynamics and diversity of these inteins, MCM homologs spanning all archaeal groups were extracted from NCBI’s non-redundant protein sequence database, and the distribution and structural architectures of their inteins were characterized. Methods: The amino acid sequences of 4243 archaeal MCM homologs were retrieved from NCBI’s non-redundant protein sequence database. These sequences were systematically assessed for their intein content through within-group multiple sequence alignments. To characterize the inteins present at each site, extensive intein structure predictions and comparisons were performed. Phylogenetic analyses were used to investigate intein relatedness between and within sites, as well as the distribution of different MCM inteins in geographically overlapping populations of archaea. Results: In total, 11 active MCM intein insertion sites were identified, expanding on the previously known five. The insertion sites have varied invasion activity levels across archaeal groups, with Nanobdellati (DPANN) being the only group with all 11 sites active. In all but two (Methanonatronarchaeia and Hadarchaeota) of the archaeal groups studied where inteins were present, at least one MCM homolog was invaded by more than one intein. With respect to intein structure, within-intein insertions bearing semblance to DNA-binding domains were identified, with varied presence between inteins. Additionally, a study of archaeal MCM sequences of samples collected from the Atacama Desert in June 2013 revealed high MCM intein diversity levels. Conclusions: We identified six new active intein insertion sites in archaeal MCM, more than doubling the five previously known sites. All eleven intein insertion sites were either close to the ATP binding site, or the lined the channel through which the single-stranded DNA is pulled during the catalytic cycle of the helicase. Many of the analyzed inteins contained insertions bearing similarity to DNA-binding helix-turn-helix domains suggesting potential involvement in the intein homing process. Additionally, the high levels of MCM intein diversity observed in archaea from the Atacama Desert provide novel and strong support for a co-existence model of intein persistence. Full article
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18 pages, 7251 KB  
Article
Assessment of the Effects of Single-Domain Anti-Idiotypic Distribution Enhancers on the Disposition of Trastuzumab and on the Efficacy of a PE24-Trastuzumab Immunotoxin
by Ping Chen, Yu Zhang, Brandon M. Bordeau and Joseph P. Balthasar
Cancers 2025, 17(9), 1468; https://doi.org/10.3390/cancers17091468 - 27 Apr 2025
Viewed by 1407
Abstract
Background/Objectives: Antibody-based therapies often exhibit limited distribution within solid tumors due to the “binding-site barrier” (BSB). Our group has developed and validated the use of anti-idiotypic distribution enhancers (AIDEs), which transiently block antibody binding, improving intra-tumoral distribution and efficacy. This study evaluated 1HE [...] Read more.
Background/Objectives: Antibody-based therapies often exhibit limited distribution within solid tumors due to the “binding-site barrier” (BSB). Our group has developed and validated the use of anti-idiotypic distribution enhancers (AIDEs), which transiently block antibody binding, improving intra-tumoral distribution and efficacy. This study evaluated 1HE and LG1, model anti-trastuzumab AIDEs, in combination with trastuzumab–PE24, a highly potent immunotoxin. Methods: The effects of 1HE on the whole-body disposition of radiolabeled trastuzumab were assessed in NCI-N87 tumor-bearing mice. Mechanistic pharmacokinetic/pharmacodynamic (PK/PD) modeling was employed to explore how AIDE binding kinetics influence antibody intra-tumoral distribution and immunotoxin potency. Trastuzumab–PE24 was developed by site-specific conjugation, enabled by self-splicing split intein, with cytotoxicity tested on various cell lines in vitro. The impact of 1HE and LG1 coadministration on trastuzumab–PE24 efficacy was evaluated in NCI-N87 xenograft-bearing mice. Results: 1HE coadministration decreased trastuzumab tumor maximum concentration, reducing tumor terminal slope by 8% and overall tumor exposure by 2.6%, without negatively affecting selectivity. Modeling predicted the optimal AIDE dissociation rate constant for trastuzumab–PE24 to be between 0.015 and 0.3 h−1. The coadministration of trastuzumab–PE24 with 1HE and LG1 improved anti-tumor efficacy and extended median survival to 60 days (p = 0.0002). Conclusions: AIDE coadministration led to minimal negative impacts on overall tumor exposure, consistent with model simulations. AIDE coadministration improved the efficacy of trastuzumab–PE24 in NCI-N87 xenografts. Modeling further predicted that repeated AIDE administration with trastuzumab–PE24 could induce complete tumor regression. These findings highlight the advantages of the AIDE strategy, particularly when coadministered with highly potent immunotoxins. Full article
(This article belongs to the Special Issue Development of Biomarkers and Antineoplastic Drugs in Solid Tumors)
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18 pages, 4427 KB  
Article
An Actively Homing Insertion Element in a Phage Methylase Contains a Hidden HNH Endonuclease
by Danielle Arsenault, Sophia P. Gosselin and Johann Peter Gogarten
Genes 2025, 16(2), 178; https://doi.org/10.3390/genes16020178 - 1 Feb 2025
Cited by 1 | Viewed by 2371
Abstract
Background/Objectives: The ShiLan domain was previously identified as an insertion sequence in a phage DNA methylase gene that exhibited similar evolutionary patterns to that of an active intein or self-splicing intron but could not be identified as either. It produces no internal [...] Read more.
Background/Objectives: The ShiLan domain was previously identified as an insertion sequence in a phage DNA methylase gene that exhibited similar evolutionary patterns to that of an active intein or self-splicing intron but could not be identified as either. It produces no internal stop codons when read in frame with its host methylase gene, leading to the thought that it may not be an intron and rather be an abnormal type of intein. However, the sequence has no detectable self-splicing domains, which are essential for intein persistence, as preventing an intein from successfully splicing is often detrimental to proper host protein function. Methods: The analysis of alternate open reading frames for the full nucleotide sequence of this insertion element revealed the insertion to be an out-of-frame histidine-asparagine-histidine (HNH) endonuclease. A GTG start codon is located 18 bp into the insertion, and a TAA stop codon within the last four bases of the insertion (TAAC). When this frame is read, an HNH endonuclease is revealed. In-depth computational analysis could not retrieve support for this element being any known type of self-splicing element, neither intein nor intron. When read in-frame with the methylase gene, this insertion is predicted to take on a looping structure that may be able to avoid interference with the DNA methylase activity. We performed searches for sequences similar in nature to the inserted out-of-frame HNH and found several in other phages and prokaryotes. We present our survey of these out-of-frame endonuclease insertion elements as well as some speculation on how these endonucleases are getting translated to facilitate their homing activity. Conclusions: These findings expand our understanding of the possible arrangements for and prevalence of unorthodox mobile genetic elements and overlapping open reading frames in phages. Full article
(This article belongs to the Section Viral Genomics)
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23 pages, 1207 KB  
Review
Conditional Split Inteins: Adaptable Tools for Programming Protein Functions
by Callum Shepherd, Makeba Lawson-Williams, Alexandria Holland, Adebayo J. Bello, Darren W. Sexton and Femi J. Olorunniji
Int. J. Mol. Sci. 2025, 26(2), 586; https://doi.org/10.3390/ijms26020586 - 11 Jan 2025
Cited by 3 | Viewed by 7518
Abstract
Split inteins are biological mechanisms for the operation of the spatiotemporal control of protein activities. They function through protein trans-splicing, in which their N- and C-terminal fragments are expressed contiguously with two protein halves. The subsequent self-excision upon recognition of the complimentary [...] Read more.
Split inteins are biological mechanisms for the operation of the spatiotemporal control of protein activities. They function through protein trans-splicing, in which their N- and C-terminal fragments are expressed contiguously with two protein halves. The subsequent self-excision upon recognition of the complimentary fragment yields a mature, complete, and functional protein. The conditional regulation of protein splicing through environmental factors or the attachment of regulatory modules can be used to determine when and where a protein will operate, providing potential novel approaches for engineering biology applications. This review will discuss current split intein applications and the mechanistic basis for novel species classification. These considerations can provide guidance in intein and extein engineering through activation strategies, in the design of spatial arrangements, and in taking advantage of unique reaction environments. This can pave the way for the future implementation of novel split intein discoveries and the selection of appropriate intein species and aid in designing novel protein engineering strategies. Full article
(This article belongs to the Special Issue New Molecular Research and Perspective: Enzyme and Its Catalysis)
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17 pages, 2636 KB  
Article
Development of Peptide Mimics of the Human Acetylcholine Receptor Main Immunogenic Region for Treating Myasthenia Gravis
by Vu B. Trinh and Robert H. Fairclough
Int. J. Mol. Sci. 2025, 26(1), 229; https://doi.org/10.3390/ijms26010229 - 30 Dec 2024
Cited by 1 | Viewed by 2466
Abstract
We have designed and produced 39 amino acid peptide mimics of the Torpedo and human acetylcholine receptors’ (AChRs) main immunogenic regions (MIRs). These conformationally sensitive regions consist of three non-contiguous segments of the AChR α-subunits and are the target of 50–70% of the [...] Read more.
We have designed and produced 39 amino acid peptide mimics of the Torpedo and human acetylcholine receptors’ (AChRs) main immunogenic regions (MIRs). These conformationally sensitive regions consist of three non-contiguous segments of the AChR α-subunits and are the target of 50–70% of the anti-AChR autoantibodies (Abs) in human myasthenic serum and in the serum of rats with a model of that disease, experimental autoimmune myasthenia gravis (EAMG), induced by immunizing the rats with the Torpedo electric organ AChR. These MIR segments covalently joined together bind a significant fraction of the monoclonal antibodies (mAbs) raised in rats against electric organ AChR. Many of these mAbs cross react with the rat neuromuscular AChR MIR and induce myasthenic symptoms when injected into naïve rats. The human MIR mimic peptide (H39MIR) is evolutionarily related to that of the Torpedo electric organ MIR mimic peptide (T39MIR) with eight amino acid differences between the two MIR mimics. The mAbs raised to the electric organ AChR MIR cross react with the human and scores of other species’ neuromuscular AChRs. However, the mAbs do not cross react with the H39MIR mimic attached to the N-terminus of an intein–chitin-binding domain (H39MIR-IChBD) even though they do bind to the T39MIR-IChBD construct. To account for this difference in binding anti-MIR mAbs, each of the eight human amino acids was substituted individually into the T39MIR-IChBD, and four of them were found to weaken mAb recognition. Substituting the corresponding four Torpedo amino acids individually and in combination into the homologous positions in H39MIR-IChBD makes chimeric human MIR mimic peptides (T/H39MIR), some of which bind anti-MIR mAbs and anti-MIR Abs from rat EAMG and human MG sera. The best mAb binding chimeric peptide constructs may potentially serve as the basis of a diagnostic anti-MIR Ab titer assay that is both prognostic and predictive of disease severity. Furthermore, the best peptides may also serve as the targeting element of a non-steroidal antigen-specific treatment of MG to remove anti-AChR MIR Abs, either as fused to the N-terminals of the human immunoglobin Fc fragment or as the targeting component of a T cell chimeric autoantibody receptor (CAAR) directed to anti-MIR memory B cells for elimination. Full article
(This article belongs to the Special Issue Autoimmune Diseases: From Molecular Basis to Therapy)
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23 pages, 2473 KB  
Article
Isolation, Genomics-Based and Biochemical Characterization of Bacteriocinogenic Bacteria and Their Bacteriocins, Sourced from the Gastrointestinal Tract of Meat-Producing Pigs
by Ester Sevillano, Irene Lafuente, Nuria Peña, Luis M. Cintas, Estefanía Muñoz-Atienza, Pablo E. Hernández and Juan Borrero
Int. J. Mol. Sci. 2024, 25(22), 12210; https://doi.org/10.3390/ijms252212210 - 14 Nov 2024
Cited by 5 | Viewed by 2595
Abstract
Antimicrobial resistance (AMR) poses a significant challenge to animal production due to the widespread use of antibiotics. Therefore, there is an urgent need for alternative antimicrobial strategies to effectively manage bacterial infections, protect animal health, and reduce reliance on antibiotics. This study evaluated [...] Read more.
Antimicrobial resistance (AMR) poses a significant challenge to animal production due to the widespread use of antibiotics. Therefore, there is an urgent need for alternative antimicrobial strategies to effectively manage bacterial infections, protect animal health, and reduce reliance on antibiotics. This study evaluated the use of emerging approaches and procedures for the isolation, identification, and characterization of bacteriocin-producing bacteria and their bacteriocins, sourced from the gastrointestinal tract (GIT) of meat-producing pigs. Out of 2056 isolates screened against Gram-positive and Gram-negative indicator strains, 20 of the most active antimicrobial isolates were subjected to whole genome sequencing (WGS) for the prediction of coding DNA sequences (CDS) and the identification of bacteriocin gene clusters (BGC) and their functions. The use of an in vitro cell-free protein synthesis (IV-CFPS) protocol and the design of an IV-CFPS coupled to a split-intein mediated ligation (IV-CFPS/SIML) procedure made possible the evaluation of the production and antimicrobial activity of described and putatively novel bacteriocins. A colony MALDI-TOF MS procedure assisted in the identification of class I, II, and III lanthipeptides. MALDI-TOF MS and a targeted proteomics, combined with a massive peptide analysis (LC-MS/MS) approach, has proven valuable for the identification and biochemical characterization of previously described and novel bacteriocins encoded by the isolated bacteriocin-producing strains. Full article
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21 pages, 3103 KB  
Article
In Silico Structural Prediction for the Generation of Novel Performant Midi-Dystrophins Based on Intein-Mediated Dual AAV Approach
by Laura Palmieri, Maxime Ferrand, Ai Vu Hong, Isabelle Richard and Sonia Albini
Int. J. Mol. Sci. 2024, 25(19), 10444; https://doi.org/10.3390/ijms251910444 - 27 Sep 2024
Cited by 4 | Viewed by 3431
Abstract
Duchenne Muscular Dystrophy (DMD) is a pediatric disorder characterized by progressive muscle degeneration and premature death, and has no current cure. The current, most promising therapeutic avenue is based on gene replacement mediated by adeno-associated viruses (AAVs) using a shortened, but still functional, [...] Read more.
Duchenne Muscular Dystrophy (DMD) is a pediatric disorder characterized by progressive muscle degeneration and premature death, and has no current cure. The current, most promising therapeutic avenue is based on gene replacement mediated by adeno-associated viruses (AAVs) using a shortened, but still functional, version of dystrophin, known as micro-dystrophin (µDys), to fit AAV capacity. The limited improvements observed in clinical trials suggest a sub-optimal performance of µDys in the human context that could be due to the lack of key domains in the protein. Therefore, expressing larger dystrophin proteins may be necessary for a more complete correction of the disease phenotype. In this study, we developed three novel midi-dystrophin constructs using a dual-AAV approach, leveraging split-intein-based protein trans-splicing. The midi-dystrophins include additional domains compared to µDys, such as the central cytoskeleton-binding domain, nNOS and Par1b interacting domains, and a complete C-terminal region. Given the limited capacity of each AAV vector, we strategically partially reduced hinge regions while ensuring that the structural stability of the protein remains intact. We predicted the interactions between the two halves of the split midi-Dys proteins thanks to the deep learning algorithm AphaFold3. We observed strong associations between the N- and C-termini in midi-Dys 1 and 2, while a weaker interaction in midi-Dys 3 was revealed. Our subsequent experiments confirmed the efficient protein trans-splicing both in vitro and in vivo in DBA2/mdx mice of the midi-Dys 1 and 2 and not in midi-Dys 3 as expected from the structural prediction. Additionally, we demonstrated that midi-Dys 1 and 2 exhibit significant therapeutic efficacy in DBA2/mdx mice, highlighting their potential as therapeutic agents for DMD. Overall, these findings highlight the potential of deep learning-based structural modeling for the generation of intein-based dystrophin versions and pose the basis for further investigation of these new midi-dystrophins versions for clinical studies. Full article
(This article belongs to the Special Issue Molecular Advances in Muscular Dystrophy)
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11 pages, 1550 KB  
Article
A Spy Chemistry-Based Method for Purification of Proteins with Authentic N-Termini
by Xiaofeng Yang, Binrui Chen, Zisha Lao, Ya Xiang and Zhanglin Lin
Catalysts 2024, 14(9), 651; https://doi.org/10.3390/catal14090651 - 23 Sep 2024
Cited by 2 | Viewed by 3455
Abstract
Protein purification is essential in life sciences and biomanufacturing. Tag-mediated protein affinity chromatography (AC) enables the preparation of recombinant proteins with medium to high purity. However, traditional AC methods often require expensive resins and additional tag removal steps. Here, we introduce a purification [...] Read more.
Protein purification is essential in life sciences and biomanufacturing. Tag-mediated protein affinity chromatography (AC) enables the preparation of recombinant proteins with medium to high purity. However, traditional AC methods often require expensive resins and additional tag removal steps. Here, we introduce a purification method for proteins with authentic N-termini based on reusable SpyDock-modified epoxy resin and a pH-inducible self-cleavage intein. This method was validated using SpyTag002-fused red fluorescent protein (RFP) and applied to purify three model proteins: glutathione S-transferase (GST), human growth hormone (hGH), and the nanobody caplacizumab, directly from cell lysates. The purified proteins achieved high purities (92–98%) and comparable yields to the commercial His-tag method. The preparation of the SpyDock-modified resin is straightforward, and SpyDock can be easily produced via standard Escherichia coli fermentation processes, making it potentially suitable for industrial-scale applications. Full article
(This article belongs to the Special Issue State-of-the-Art Enzyme Engineering and Biocatalysis in China)
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14 pages, 1529 KB  
Article
Enhancing Cellular Uptake of Native Proteins through Bio-Orthogonal Conjugation with Chemically Synthesized Cell-Penetrating Peptides
by Jekaterina Nebogatova, Ly Porosk, Heleri Heike Härk and Kaido Kurrikoff
Pharmaceutics 2024, 16(5), 617; https://doi.org/10.3390/pharmaceutics16050617 - 3 May 2024
Cited by 1 | Viewed by 3350
Abstract
The potential for native proteins to serve as a platform for biocompatible, targeted, and personalized therapeutics in the context of genetic and metabolic disorders is vast. Nevertheless, their clinical application encounters challenges, particularly in overcoming biological barriers and addressing the complexities involved in [...] Read more.
The potential for native proteins to serve as a platform for biocompatible, targeted, and personalized therapeutics in the context of genetic and metabolic disorders is vast. Nevertheless, their clinical application encounters challenges, particularly in overcoming biological barriers and addressing the complexities involved in engineering transmembrane permeability. This study is dedicated to the development of a multifunctional nanoentity in which a model therapeutic protein is covalently linked to a cell-penetrating peptide, NickFect 55, with the objective of enhancing its intracellular delivery. Successful binding of the nanoentity fragments was achieved through the utilization of an intein-mediated protein-trans splicing reaction. Our research demonstrates that the fully assembled nanoentity-containing protein was effectively internalized by the cells, underscoring the potential of this approach in overcoming barriers associated with protein-based therapeutics for the treatment of genetic disorders. Full article
(This article belongs to the Special Issue Delivery System for Biomacromolecule Drugs: Design and Application)
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21 pages, 5864 KB  
Article
Episomal Vectors for Stable Production of Recombinant Proteins and Engineered Antibodies
by Ian Fallahee and Daniel Hawiger
Antibodies 2024, 13(1), 18; https://doi.org/10.3390/antib13010018 - 11 Mar 2024
Cited by 3 | Viewed by 7828
Abstract
There is tremendous interest in the production of recombinant proteins, particularly bispecific antibodies and antibody–drug conjugates for research and therapeutic use. Here, we demonstrate a highly versatile plasmid system that allows the rapid generation of stable Expi293 cell pools by episomal retention of [...] Read more.
There is tremendous interest in the production of recombinant proteins, particularly bispecific antibodies and antibody–drug conjugates for research and therapeutic use. Here, we demonstrate a highly versatile plasmid system that allows the rapid generation of stable Expi293 cell pools by episomal retention of transfected DNA. By linking protein expression to puromycin resistance through an attenuated internal ribosome entry site, we achieve stable cell pools producing proteins of interest. In addition, split intein–split puromycin-mediated selection of two separate protein expression cassettes allows the stable production of bispecific antibody-like molecules or antibodies with distinct C-terminal heavy chain modifications, such as an antigen on one chain and a sortase tag on the other chain. We also use this novel expression system to generate stable Expi293 cell pools that secrete sortase A Δ59 variant Srt4M. Using these reagents, we prepared a site-specific drug-to-antibody ratio of 1 antibody–siRNA conjugate. We anticipate the simple, robust, and rapid stable protein expression systems described here being useful for a wide variety of applications. Full article
(This article belongs to the Section Antibody Discovery and Engineering)
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20 pages, 2433 KB  
Article
Production of Pumilarin and a Novel Circular Bacteriocin, Altitudin A, by Bacillus altitudinis ECC22, a Soil-Derived Bacteriocin Producer
by Irene Lafuente, Ester Sevillano, Nuria Peña, Alicia Cuartero, Pablo E. Hernández, Luis M. Cintas, Estefanía Muñoz-Atienza and Juan Borrero
Int. J. Mol. Sci. 2024, 25(4), 2020; https://doi.org/10.3390/ijms25042020 - 7 Feb 2024
Cited by 19 | Viewed by 4737
Abstract
The rise of antimicrobial resistance poses a significant global health threat, necessitating urgent efforts to identify novel antimicrobial agents. In this study, we undertook a thorough screening of soil-derived bacterial isolates to identify candidates showing antimicrobial activity against Gram-positive bacteria. A highly active [...] Read more.
The rise of antimicrobial resistance poses a significant global health threat, necessitating urgent efforts to identify novel antimicrobial agents. In this study, we undertook a thorough screening of soil-derived bacterial isolates to identify candidates showing antimicrobial activity against Gram-positive bacteria. A highly active antagonistic isolate was initially identified as Bacillus altitudinis ECC22, being further subjected to whole genome sequencing. A bioinformatic analysis of the B. altitudinis ECC22 genome revealed the presence of two gene clusters responsible for synthesizing two circular bacteriocins: pumilarin and a novel circular bacteriocin named altitudin A, alongside a closticin 574-like bacteriocin (CLB) structural gene. The synthesis and antimicrobial activity of the bacteriocins, pumilarin and altitudin A, were evaluated and validated using an in vitro cell-free protein synthesis (IV-CFPS) protocol coupled to a split-intein-mediated ligation procedure, as well as through their in vivo production by recombinant E. coli cells. However, the IV-CFPS of CLB showed no antimicrobial activity against the bacterial indicators tested. The purification of the bacteriocins produced by B. altitudinis ECC22, and their evaluation by MALDI-TOF MS analysis and LC-MS/MS-derived targeted proteomics identification combined with massive peptide analysis, confirmed the production and circular conformation of pumilarin and altitudin A. Both bacteriocins exhibited a spectrum of activity primarily directed against other Bacillus spp. strains. Structural three-dimensional predictions revealed that pumilarin and altitudin A may adopt a circular conformation with five- and four-α-helices, respectively. Full article
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15 pages, 2051 KB  
Article
Extending AAV Packaging Cargo through Dual Co-Transduction: Efficient Protein Trans-Splicing at Low Vector Doses
by Mariana V. Ferreira, Sofia Fernandes, Ana Isabel Almeida, Salomé Neto, João P. Mendes, Ricardo J. S. Silva, Cristina Peixoto and Ana Sofia Coroadinha
Int. J. Mol. Sci. 2023, 24(13), 10524; https://doi.org/10.3390/ijms241310524 - 23 Jun 2023
Cited by 12 | Viewed by 5589
Abstract
Adeno-associated viral (AAV) vectors represent one of the leading platforms for gene delivery. Nevertheless, their small packaging capacity restricts their use for diseases requiring large-gene delivery. To overcome this, dual-AAV vector systems that rely on protein trans-splicing were developed, with the split-intein Npu [...] Read more.
Adeno-associated viral (AAV) vectors represent one of the leading platforms for gene delivery. Nevertheless, their small packaging capacity restricts their use for diseases requiring large-gene delivery. To overcome this, dual-AAV vector systems that rely on protein trans-splicing were developed, with the split-intein Npu DnaE among the most-used. However, the reconstitution efficiency of Npu DnaE is still insufficient, requiring higher vector doses. In this work, two split-inteins, Cfa and Gp41-1, with reportedly superior trans-splicing were evaluated in comparison with Npu DnaE by transient transfections and dual-AAV in vitro co-transductions. Both Cfa and Gp41-1 split-inteins enabled reconstitution rates that were over two-fold higher than Npu DnaE and 100% of protein reconstitution. The impact of different vector preparation qualities in split-intein performances was also evaluated in co-transduction assays. Higher-quality preparations increased split-inteins’ performances by three-fold when compared to low-quality preparations (60–75% vs. 20–30% full particles, respectively). Low-quality vector preparations were observed to limit split-gene reconstitutions by inhibiting co-transduction. We show that combining superior split-inteins with higher-quality vector preparations allowed vector doses to be decreased while maintaining high trans-splicing rates. These results show the potential of more-efficient protein-trans-splicing strategies in dual-AAV vector co-transduction, allowing the extension of its use to the delivery of larger therapeutic genes. Full article
(This article belongs to the Special Issue Virus Engineering and Applications)
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13 pages, 2250 KB  
Article
Cell-Based Sensors for the Detection of EGF and EGF-Stimulated Ca2+ Signaling
by Euiyeon Lee, Keshab Lal Shrestha, Seonhye Kang, Neethu Ramakrishnan and Youngeun Kwon
Biosensors 2023, 13(3), 383; https://doi.org/10.3390/bios13030383 - 14 Mar 2023
Cited by 7 | Viewed by 6705
Abstract
Epidermal growth factor (EGF)-mediated activation of EGF receptors (EGFRs) has become an important target in drug development due to the implication of EGFR-mediated cellular signaling in cancer development. While various in vitro approaches are developed for monitoring EGF-EGFR interactions, they have several limitations. [...] Read more.
Epidermal growth factor (EGF)-mediated activation of EGF receptors (EGFRs) has become an important target in drug development due to the implication of EGFR-mediated cellular signaling in cancer development. While various in vitro approaches are developed for monitoring EGF-EGFR interactions, they have several limitations. Herein, we describe a live cell-based sensor system that can be used to monitor the interaction of EGF and EGFR as well as the subsequent signaling events. The design of the EGF-detecting sensor cells is based on the split-intein-mediated conditional protein trans-cleavage reaction (CPC). CPC is triggered by the presence of the target (EGF) to activate a signal peptide that translocates the fluorescent cargo to the target cellular location (mitochondria). The developed sensor cell demonstrated excellent sensitivity with a fast response time. It was also successfully used to detect an agonist and antagonist of EGFR (transforming growth factor-α and Cetuximab, respectively), demonstrating excellent specificity and capability of screening the analytes based on their function. The usage of sensor cells was then expanded from merely detecting the presence of target to monitoring the target-mediated signaling cascade, by exploiting previously developed Ca2+-detecting sensor cells. These sensor cells provide a useful platform for monitoring EGF-EGFR interaction, for screening EGFR effectors, and for studying downstream cellular signaling cascades. Full article
(This article belongs to the Section Biosensor and Bioelectronic Devices)
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