Chaperone-mediated native folding of a β-scorpion toxin in the periplasm of E.coli

Background: Animal neurotoxin peptides are valuable probes for investigating ion channel structure/function relationships and represent lead compounds for novel therapeutics and insecticides. However, misfolding and aggregation are common outcomes when toxins containing multiple disulfides are expressed in bacteria. Methods: The ß-scorpion peptide toxin Bj-xtrIT from Hottentotta judaica and four chaperone enzymes (DsbA, DsbC, SurA and FkpA) were co-secreted into the oxidizing environment of the E.coli periplasm. Expressed Bj-xtrIT was purified and analyzed by HPLC and FPLC chromatography. Its thermostability was assessed using synchrotron radiation circular dichroism spectroscopy and its crystal structure was determined. Results: Western blot analysis showed that robust expression was only achieved when cells co-expressed the chaperones. The purified samples were homogenous and monodisperse and the protein was thermostable. The crystal structure of the recombinant toxin confirmed that it adopts the native disulfide connectivity and fold. Conclusions: The chaperones enabled correct folding of the four-disulfide-bridged Bj-xtrIT toxin. There was no apparent sub-population of misfolded Bj-xtrIT, which attests to the effectiveness of this expression method. General Significance: We report the first example of a disulfide-linked scorpion toxin natively folded during bacterial expression. This method eliminates downstream processing steps such as oxidative refolding or cleavage of a fusion-carrier and therefore enables efficient production of insecticidal Bj-xtrIT. Periplasmic chaperone activity may produce native folding of other extensively disulfide-reticulated proteins including animal neurotoxins. This work is therefore relevant to venomics and studies of a wide range of channels and receptors

Structure of the human heterodimeric transporter 4F2hc-LAT2 in complex with Anticalin, an alternative binding protein for applications in single-particle cryo-EM.

Cryo-EM structure determination of relatively small and flexible membrane proteins at high resolution is challenging. Increasing the size and structural features by binding of high affinity proteins to the biomolecular target allows for better particle alignment and may result in structural models of higher resolution and quality. Anticalins are alternative binding proteins to antibodies, which are based on the lipocalin scaffold and show potential for theranostic applications. The human heterodimeric amino acid transporter 4F2hc-LAT2 is a membrane protein complex that mediates transport of certain amino acids and derivatives thereof across the plasma membrane. Here, we present and discuss the cryo-EM structure of human 4F2hc-LAT2 in complex with the anticalin D11vs at 3.2 Å resolution. Relative high local map resolution (2.8-3.0 Å) in the LAT2 substrate binding site together with molecular dynamics simulations indicated the presence of fixed water molecules potentially involved in shaping and stabilizing this region. Finally, the presented work expands the application portfolio of anticalins and widens the toolset of binding proteins to promote high-resolution structure solution by single-particle cryo-EM

Novel Serial Positive Enrichment Technology Enables Clinical Multiparameter Cell Sorting

A general obstacle for clinical cell preparations is limited purity, which causes variability in the quality and potency of cell products and might be responsible for negative side effects due to unwanted contaminants. Highly pure populations can be obtained best using positive selection techniques. However, in many cases target cell populations need to be segregated from other cells by combinations of multiple markers, which is still difficult to achieve – especially for clinical cell products. Therefore, we have generated low-affinity antibody-derived Fab-fragments, which stain like parental antibodies when multimerized via Strep-tag and Strep-Tactin, but can subsequently be removed entirely from the target cell population. Such reagents can be generated for virtually any antigen and can be used for sequential positive enrichment steps via paramagnetic beads. First protocols for multiparameter enrichment of two clinically relevant cell populations, CD4high/CD25high/CD45RAhigh ‘regulatory T cells’ and CD8high/CD62Lhigh/CD45RAneg ‘central memory T cells’, have been established to determine quality and efficacy parameters of this novel technology, which should have broad applicability for clinical cell sorting as well as basic research

Polymers for Protein Conjugation

Polyethylene glycol (PEG) at the moment is considered the leading polymer for protein conjugation in view of its unique properties, as well as to its low toxicity in humans, qualities which have been confirmed by its extensive use in clinical practice. Other polymers that are safe, biodegradable and custom-designed have, nevertheless, also been investigated as potential candidates for protein conjugation. This review will focus on natural polymers and synthetic linear polymers that have been used for protein delivery and the results associated with their use. Genetic fusion approaches for the preparation of protein-polypeptide conjugates will be also reviewed and compared with the best known chemical conjugation ones

High molecular mass radioimmunoconjugates are promising for intraperitoneal α-emitter immunotherapy due to prolonged retention in the peritoneum

Abstract Aim. Therapeutic efficacy of intraperitoneal radioimmunotherapy is dependent on the time of retention of the radioimmunoconjugates within the peritoneal cavity. Therefore, the aim of this study was to investigate intraperitoneal retention of Fab, IgG and IgM radioimmunoconjugates. Methods. Female Balb/c mice were injected with 213Bi- or 111In-labeled IgM, IgG and recombinant Fab conjugates intraperitoneally or intravenously. At different time points after injection, whole body distribution of radionuclides was imaged using a gamma camera. Distribution of radionuclides in selected organs was determined via γ-counting after sacrifice. Biological half-lives of the conjugates were calculated from whole body activities. Results. After i.p. injection 213Bi-Fab rapidly accumulated in the kidneys indicative of glomerular filtration and reabsorption. Accumulation of 213Bi-IgG in the kidneys was significantly lower. 213Bi-IgM showed a striking accumulation in the liver 180 min after i.p. injection. 111In-IgG persisted in the circulation up to 72 h both after i.p. and i.v. injection. 111In-IgM showed a continuous accumulation in the liver. Moreover, 111In-IgM was significantly higher 24 h after i.v. injection than i.p. injection both in liver and spleen. These differences could be confirmed via scintigraphy. After injection of 111In-IgG differences in scintigraphic images between i.v. and i.p. were clearly visible only at 3 h. Biological half lives were 24 h, 45 h and 165 h for 111In-IgM, 111In-Fab and 111In-IgG, respectively. Conclusion. Retention of radioimmunoconjugates in the peritoneal cavity positively correlates with the molecular mass of the antibody. Therefore, IgM radioimmunoconjugates should be preferably used in intraperitoneal radioimmunotherapy.JRC.E.5-Nuclear chemistr