Inteins in Science: Evolution to Application

Nanda, Ananya; Nasker, Sourya Subhra; Mehra, Ashwaria; Panda, Sunita; Nayak, Sasmita

doi:10.3390/microorganisms8122004

Cited by 28 publications

(35 citation statements)

References 186 publications

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“…Compared to other tags to enable recombination 16 , 19 , 22 , 23 , IMPTS is advantageous in that the third component, an enzyme, is not required, and minimal substrate peptide is left on the product because the Int N -Int C complex is released 21 . Various applications take advantage of these features of IMPTS 20 , 24 – 30 ; BsAbs with the IgG1 structure without the light chain problem have also been developed accordingly (Fig. 1 a) 17 , 18 , 31 .…”

Section: Introductionmentioning

confidence: 99%

Production of IgG1-based bispecific antibody without extra cysteine residue via intein-mediated protein trans-splicing

Akiba

Ise

Nagata

et al. 2021

Sci Rep

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A major class of bispecific antibodies (BsAbs) utilizes heterodimeric Fc to produce the native immunoglobulin G (IgG) structure. Because appropriate pairing of heavy and light chains is required, the design of BsAbs produced through recombination or reassembly of two separately-expressed antigen-binding fragments is advantageous. One such method uses intein-mediated protein trans-splicing (IMPTS) to produce an IgG1-based structure. An extra Cys residue is incorporated as a consensus sequence for IMPTS in successful examples, but this may lead to potential destabilization or disturbance of the assay system. In this study, we designed a BsAb linked by IMPTS, without the extra Cys residue. A BsAb binding to both TNFR2 and CD30 was successfully produced. Cleaved side product formation was inevitable, but it was minimized under the optimized conditions. The fine-tuned design is suitable for the production of IgG-like BsAb with high symmetry between the two antigen-binding fragments that is advantageous for screening BsAbs.

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Section: Introductionmentioning

confidence: 99%

Production of IgG1-based bispecific antibody without extra cysteine residue via intein-mediated protein trans-splicing

Akiba

Ise

Nagata

et al. 2021

Sci Rep

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“…Splicing and cleavage products (Fig. 1C) are obtained through a series of nucleophilic displacement reactions mediated by the coordinated activity of catalytic residues (5)(6)(7)(8)(9). Therefore, inteins interrupting the functional domain of the host protein, play a regulatory role in protein activation (10,11).…”

Section: Introductionmentioning

confidence: 99%

“…Especially, the highly conserved Block B His destabilizes the scissile peptide bond either by reducing the energy barrier or by loss of resonance or protonation of the Cys1 amide bond via His imidazole ring to catalyze the N-S acyl shift (14)(15)(16)(17)(18). Block F Asp plays a pivotal role in driving the thioesterification and stabilizing the tetrahedral intermediate by ground-state destabilization (8,16,19). It is also proposed that Block B histidine plays a dual catalytic role;…”

Section: Introductionmentioning

confidence: 99%

“…The Block A residues Cys, Ser, or Thr participate in the first step of splicing with significant assistance from the Block B His and Thr residues. The highly conserved Block B His destabilizes the scissile peptide bond either by reducing the energy barrier or by loss of resonance or protonation of the Cys1 amide bond via His imidazole ring to catalyze the N-S acyl shift (14)(15)(16)(17)(18).The Block F Asp residue drives the thioesterification through the tetrahedral intermediate by ground-state destabilization (8,16,19). It is also proposed that Block B histidine plays a dual catalytic role; being weakly basic it deprotonates the Cys1 to accelerate the N-S acyl shift and subsequently acts as an acid to stabilize the tetrahedral intermediate (15,17,18).…”

Section: Introductionmentioning

confidence: 99%

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SufB intein splicing inMycobacterium tuberculosisis influenced by two remote conserved N-extein Histidines

Panda

Nanda

Sahu

et al. 2021

Preprint

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Inteins are auto-processing domains that implement a multi-step biochemical reaction termed protein splicing, marked by cleavage and formation of peptide bonds. They excise from a precursor protein, generating a functional protein via covalent bonding of flanking exteins. We report the kinetic study of splicing and cleavage reaction in a [Fe-S] cluster assembly protein SufB from Mycobacterium tuberculosis. Although it follows a canonical intein splicing pathway, distinct features are added by extein residues present in the active site. Sequence analysis identified two conserved histidines in the N-extein region; His-5 and His-38. Kinetic analyses of His-5Ala and His-38Ala SufB mutants exhibited significant reductions in splicing and cleavage rates relative to the SufB wild-type precursor protein. Structural analysis and molecular dynamics simulations suggested that Mtu SufB displays a unique mechanism where two remote histidines work concurrently to facilitate N- cleavage reaction. His-5, which is exposed outside, because of the random push of water molecules forces His-38 towards the N-cleavage site. Thus, His-5 stabilizes the position of His-38 which in turn activates N-S acyl shift via direct interaction with catalytic Cys1. Understanding intein~extein partnership in an essential mycobacterial protein may diversify into intein-based applied research along with the development of pathogen-specific novel antimicrobials.

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“…Utilizing the protein splicing activities of inteins bears a repertoire of potential applications in several areas, including in vivo protein engineering, protein purification, and modification. Indeed, intein-mediated chemical reactions have increasingly been incorporated as practical tools in the fields of protein engineering, synthetic biology, and biotechnology [10,11]. For example, inteins from extremely halophilic archaea have been demonstrated to control protein-splicing reaction with salt concentrations, which has enabled the engineering of a salt-inducible self-cleaving tag for protein purification [12].…”

Section: Introductionmentioning

confidence: 99%

Mini-intein Structures from Extremophiles Suggest a Strategy for Finding Novel Robust Inteins

Hiltunen¹,

Beyer²,

Iwaï³

2021

Preprint

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Inteins are prevalent among extremophiles. Mini-inteins with robust splicing properties are of particular interest for biotechnological applications due to their small size. However, biochemical and structural characterization has still been limited to a small number of inteins, and only a few inteins serve as widely used tools in protein engineering approaches. We determined the crystal structure of a naturally-occurring Pol-II mini-intein from Pyrococcus horikoshii and compared it with two other natural mini-inteins from Pyrococcus horikoshii. Despite the similar sizes, the comparison revealed distinct differences in insertions and deletions, implying specific evolutionary pathways from distinct ancestral origins. Our studies suggest that sporadically distributed mini-inteins might be more promising for further protein engineering applications than the highly conserved mini-inteins. Structural investigations of more inteins could guide the shortest path to finding novel robust mini-inteins suitable for protein engineering purposes.

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Inteins in Science: Evolution to Application

Cited by 28 publications

References 186 publications

Production of IgG1-based bispecific antibody without extra cysteine residue via intein-mediated protein trans-splicing

Production of IgG1-based bispecific antibody without extra cysteine residue via intein-mediated protein trans-splicing

SufB intein splicing inMycobacterium tuberculosisis influenced by two remote conserved N-extein Histidines

Mini-intein Structures from Extremophiles Suggest a Strategy for Finding Novel Robust Inteins

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