Tuomas Huovinen scite author profile

PKCε controls the transport of endocytosed β1‐integrins to the plasma membrane regulating directional cell motility. Vimentin, an intermediate filament protein upregulated upon epithelial cell transformation, is shown here to be a proximal PKCε target within the recycling integrin compartment. On inhibition of PKC and vimentin phosphorylation, integrins become trapped in vesicles and directional cell motility towards matrix is severely attenuated. In vitro reconstitution assays showed that PKCε dissociates from integrin containing endocytic vesicles in a selectively phosphorylated vimentin containing complex. Mutagenesis of PKC (controlled) sites on vimentin and ectopic expression of the variant leads to the accumulation of intracellular PKCε/integrin positive vesicles. Finally, introduction of ectopic wild‐type vimentin is shown to promote cell motility in a PKCε‐dependent manner; alanine substitutions in PKC (controlled) sites on vimentin abolishes the ability of vimentin to induce cell migration, whereas the substitution of these sites with acidic residues enables vimentin to rescue motility of PKCε null cells. Our results indicate that PKC‐mediated phosphorylation of vimentin is a key process in integrin traffic through the cell.

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Molecular Genetic and Structural Modeling Studies of Staphylococcus aureus RNA Polymerase and the Fitness of Rifampin Resistance Genotypes in Relation to Clinical Prevalence

O’Neill

Huovinen

Fishwick

et al. 2006

Antimicrob Agents Chemother

110

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The adaptive and further evolutionary responses of Staphylococcus aureus to selection pressure with the antibiotic rifampin have not been explored in detail. We now present a detailed analysis of these systems. The use of rifampin for the chemotherapy of infections caused by S. aureus has resulted in the selection of mutants with alterations within the ␤ subunit of the target enzyme, RNA polymerase. Using a new collection of strains, we have identified numerous novel mutations in the ␤ subunits of both clinical and in vitro-derived resistant strains and established that additional, undefined mechanisms contribute to expression of rifampin resistance in clinical isolates of S. aureus. The fitness costs associated with rifampin resistance genotypes were found to have a significant influence on their clinical prevalence, with the most common clinical genotype (H 481 N, S 529 L) exhibiting no fitness cost in vitro. Intragenic mutations which compensate for the fitness costs associated with rifampin resistance in clinical strains of S. aureus were identified for the first time. Structural explanations for rifampin resistance and the loss of fitness were obtained by molecular modeling of mutated RNA polymerase enzymes.Resistance to antibiotics arising from point mutations in bacterial genes that encode drug targets is a well-recognized phenomenon (38), and expression of these mechanisms often confers a fitness cost that results from the decreased physiological activity of the altered target (1, 37). Nevertheless, increasing evidence obtained both from laboratory and from epidemiological studies indicates that intragenic compensatory mutations often act to maintain the long-term persistence of resistant bacteria by eliminating or reducing the fitness costs associated with the development of target-based resistance (27). Consequently, bacterial products that are the targets of antibiotic action present interesting systems for the study of structure-function relationships from the perspectives of resistance, fitness, and compensatory evolution (15,20). Furthermore, fitness costs and compensatory evolution are factors that can influence the prevalence of specific antibiotic resistance genotypes in the clinical setting (5,19,20,30,43).We have recently explored the genetic and structural basis of mupirocin resistance and fitness in Staphylococcus aureus and related this to the incidence of mupirocin resistant isoleucyltRNA synthetase genotypes arising in the clinic (19,20). A similar opportunity to examine these paradigms in relation to rifampin resistance now arises.Mutations that confer resistance to rifampin (Fig. 1) arise in the ␤ subunit (encoded by rpoB) of the target enzyme RNA polymerase (RNAP) and have been mapped to this location in all bacteria examined so far, including Escherichia coli (21), Mycobacterium tuberculosis (5, 36), and S. aureus (32,43). The fitness burdens and compensatory evolution associated with mutations in rpoB that confer resistance to rifampin have been studied in E. coli (37). However, the ...

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Two ScFv antibody libraries derived from identical VL-VH framework with different binding site designs display distinct binding profiles

Huovinen

Syrjänpää

Sanmark

et al. 2013

Protein Engineering Design and Selection

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In directed evolution experiments, a single randomization scheme of an antibody gene does not provide optimal diversity for recognition of all sizes of antigens. In this study, we have expanded the recognition potential of our universal library, termed ScFvP, with a second distinct diversification scheme. In the second library, termed ScFvM, diversity was designed closer to the center of the antigen binding site in the same antibody framework as earlier. Also, the CDR-H3 loop structures were redesigned to be shorter, 5-12 aa and mostly without the canonical salt bridge between Arg106H and Asp116H to increase the flexibility of the loop and to allow more space in the center of the paratope for binding smaller targets. Antibodies were selected from the two libraries against various antigens separately and as a mixture. The origin and characteristics of the retrieved antibodies indicate that complementary diversity results in complementary functionality widening the spectrum of targets amenable for selection.

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A cell-free biosensor for the detection of transcriptional inducers using firefly luciferase as a reporter

Pellinen¹,

Huovinen²,

Karp³

2004

Analytical Biochemistry

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Synthetic single-framework antibody library integrated with rapid affinity maturation by VL shuffling

Brockmann

Akter

Savukoski

et al. 2011

Protein Engineering Design and Selection

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Affinity maturation is often applied to improve the properties of antibodies isolated from universal antibody libraries in vitro. A synthetic human scFv antibody library was constructed in single immunoglobulin framework to enable rapid affinity maturation by updated Kunkel's mutagenesis. The initial diversity was generated predominantly in the V(H) domain combined with only 36 V(L) domain variants yielding 3 × 10(10) unique members in the phage-displayed library. After three rounds of panning the enriched V(H) genes from the primary library selections against lysozyme were incorporated into a ready-made circular single-stranded affinity maturation library containing 7 × 10(8) V(L) gene variants. Several unique antibodies with 0.8-10 nM (K(d), dissociation constant) affinities against lysozyme were found after panning from the affinity maturation library, contrasted by only one anti-lysozyme scFv clone with K(d) <20 nM among the clones panned from the primary universal library. The presented single-framework strategy provides a way to convey significant amount of functional V(H) domain diversity to affinity maturation without bimolecular ligation leading to a diverse set of antibodies with binding affinities in the low nanomolar range.

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Split & mix assembly of DNA libraries for ultrahigh throughput on-bead screening of functional proteins

Lindenburg

Huovinen

Wiel

et al. 2020

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Site-saturation libraries reduce protein screening effort in directed evolution campaigns by focusing on a limited number of rationally chosen residues. However, uneven library synthesis efficiency leads to amino acid bias, remedied at high cost by expensive custom synthesis of oligonucleotides, or through use of proprietary library synthesis platforms. To address these shortcomings, we have devised a method where DNA libraries are constructed on the surface of microbeads by ligating dsDNA fragments onto growing, surface-immobilised DNA, in iterative split-and-mix cycles. This method—termed SpliMLiB for Split-and-Mix Library on Beads—was applied towards the directed evolution of an anti-IgE Affibody (ZIgE), generating a 160,000-membered, 4-site, saturation library on the surface of 8 million monoclonal beads. Deep sequencing confirmed excellent library balance (5.1% ± 0.77 per amino acid) and coverage (99.3%). As SpliMLiB beads are monoclonal, they were amenable to direct functional screening in water-in-oil emulsion droplets with cell-free expression. A FACS-based sorting of the library beads allowed recovery of hits improved in Kd over wild-type ZIgE by up to 3.5-fold, while a consensus mutant of the best hits provided a 10-fold improvement. With SpliMLiB, directed evolution workflows are accelerated by integrating high-quality DNA library generation with an ultra-high throughput protein screening platform.

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Effect of DNA sequence of Fab fragment on yield characteristics and cell growth of E. coli

Kulmala

Huovinen

Lamminmäki

2017

Sci Rep

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Codon usage is one of the factors influencing recombinant protein expression. We were interested in the codon usage of an antibody Fab fragment gene exhibiting extreme toxicity in the E. coli host. The toxic synthetic human Fab gene contained domains optimized by the “one amino acid-one codon” method. We redesigned five segments of the Fab gene with a “codon harmonization” method described by Angov et al. and studied the effects of these changes on cell viability, Fab yield and display on filamentous phage using different vectors and bacterial strains. The harmonization considerably reduced toxicity, increased Fab expression from negligible levels to 10 mg/l, and restored the display on phage. Testing the impact of the individual redesigned segments revealed that the most significant effects were conferred by changes in the constant domain of the light chain. For some of the Fab gene variants, we also observed striking differences in protein yields when cloned from a chloramphenicol resistant vector into an identical vector, except with ampicillin resistance. In conclusion, our results show that the expression of a heterodimeric secretory protein can be improved by harmonizing selected DNA segments by synonymous codons and reveal additional complexity involved in heterologous protein expression.

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Primer Extension Mutagenesis Powered by Selective Rolling Circle Amplification

et al. 2012

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Primer extension mutagenesis is a popular tool to create libraries for in vitro evolution experiments. Here we describe a further improvement of the method described by T.A. Kunkel using uracil-containing single-stranded DNA as the template for the primer extension by additional uracil-DNA glycosylase treatment and rolling circle amplification (RCA) steps. It is shown that removal of uracil bases from the template leads to selective amplification of the nascently synthesized circular DNA strand carrying the desired mutations by phi29 DNA polymerase. Selective RCA (sRCA) of the DNA heteroduplex formed in Kunkel's mutagenesis increases the mutagenesis efficiency from 50% close to 100% and the number of transformants 300-fold without notable diversity bias. We also observed that both the mutated and the wild-type DNA were present in at least one third of the cells transformed directly with Kunkel's heteroduplex. In contrast, the cells transformed with sRCA product contained only mutated DNA. In sRCA, the complex cell-based selection for the mutant strand is replaced with the more controllable enzyme-based selection and less DNA is needed for library creation. Construction of a gene library of ten billion members is demonstrated with the described method with 240 nanograms of DNA as starting material.

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Tuomas Huovinen

PKCɛ-mediated phosphorylation of vimentin controls integrin recycling and motility

Molecular Genetic and Structural Modeling Studies of Staphylococcus aureus RNA Polymerase and the Fitness of Rifampin Resistance Genotypes in Relation to Clinical Prevalence

Two ScFv antibody libraries derived from identical VL-VH framework with different binding site designs display distinct binding profiles

A cell-free biosensor for the detection of transcriptional inducers using firefly luciferase as a reporter

Synthetic single-framework antibody library integrated with rapid affinity maturation by VL shuffling

Split & mix assembly of DNA libraries for ultrahigh throughput on-bead screening of functional proteins

Effect of DNA sequence of Fab fragment on yield characteristics and cell growth of E. coli

Primer Extension Mutagenesis Powered by Selective Rolling Circle Amplification

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