Comparison of the purification of biologically active IL-7 cytokine expressed in Escherichia coli and Pichia pastoris.

The large scale screening of cytokine mutants is a component of binding and activity mapping and requires an efficient method of cytokine protein expression. Here, we compared recombinant IL-7 expression with and purification from Escherichia coli and Pichia pastoris. The IL-7 cytokine contains three disulfide bonds that are essential for its biological activity, and which are formed upon secretion through P. pastoris, but not in the reducing cytoplasm of E. coli. In contrast to a previous report we found that P. pastoris secretes active but N-linked hyperglycosylated IL-7. Enzymatic deglycosylation was incompatible with activity measurements in a cell based assay. E. coli expressed IL-7 was refolded from solubilized inclusion bodies. A chromatographic purification step between inclusion body solubilization and refolding increased the yield of biologically active monomeric IL-7, and decreased the amount of inactive soluble aggregates. Cation exchange chromatography of untagged IL-7, and IMAC of His-tagged IL-7 improved refolding yields to a similar extend, indicating that the removal of contaminating components in the solubilized inclusion bodies improves refolding efficiency. We conclude that a chromatographic purification step of IL-7 solubilized from E. coli inclusion bodies increases refolding yield, and may be a suitable general rescue strategy for obtaining folded and biologically active proteins from inclusion bodies.

Affinity-based microdialysis sampling using heparin for in vitro collection of human cytokines.

Microdialysis sampling is a widely used method to sample from complex biological matrices. Cytokines are important signaling proteins that are typically recovered with low relative recovery values during microdialysis sampling. Heparin was included in the microdialysis perfusion fluid as an affinity agent to increase in vitro recovery of different cytokines through polyethersulfone (PES) microdialysis membranes with 100 kDa molecular weight cutoff. No change in fluid volumes collected from the microdialysis probes occurred when heparin was included in the perfusion fluid up to concentrations of 10 microM. The loss of heparin (10 microM) across the dialysis membrane was minimal (2.7+/-0.9%, n=3). Additionally, heparin at these concentrations did not interfere with the cytokine immunoassays. The control and heparin-enhanced relative recoveries for five human cytokines using 0.1 microM heparin in the microdialysis perfusion fluid flowing at 0.5 microL min(-1) were (n=3): interleukin-4 (IL-4), 4.2+/-0.5% and 7.2+/-3.1%; interleukin-6 (IL-6), 1.4+/-0.8% and 3.6+/-1.3%; interleukin-7 (IL-7), 1.3+/-0.8% and 4.8+/-1.8%; monocyte chemoattractant protein-1 (MCP-1), 9.0+/-1.6% and 19.5+/-2.7%; and tumor necrosis factor-alpha (TNF-alpha), 7.4+/-1.3% and 16.9+/-1.6%, respectively. Heparin increased the microdialysis sampling relative recovery of several human cytokines in vitro.

Expression, purification, and functional characterization of recombinant human interleukin-7.

Human interleukin-7 (IL-7) is a member of the interleukin family. Numerous studies have demonstrated IL-7's effect on B- and T-cell development as well as its potential in various clinical applications. Previously, a study reported that IL-7 could be purified from inclusion bodies using a prokaryotic system, however, the required refolding step limits the recovery rate. This study was designed to produce a bioactive recombinant human IL-7 (rhIL-7) in a eukaryotic expression system in order to obtain higher yields of the protein with simpler purification steps. We cloned human IL-7 cDNA and successfully expressed active recombinant protein in yeast using the Pichia pastoris expression system. A simple purification strategy was established to purify the rhIL-7 from the fermentation supernatant, yielding 35 mg/L at 95% purity by the use of a common SP Sepharose FF cation-exchange chromatography. Functional analysis of the purified rhIL-7 by the pre-B cell MTT (3-(4,5-dimethylthiazolyl-2)-2,5-diphenyltetrazolium bromide) proliferation assay demonstrated a specific activity comparable to commercial sources. These results suggest that purification of rhIL-7 from yeast provides a sound strategy for large-scale production of the rhIL-7 for clinical applications as well as basic researches.

Production and purification of refolded recombinant human IL-7 from inclusion bodies.

A recombinant form of human rhIL-7 was overexpressed in Escherichia coli HMS174 (DE3) pLysS under the control of a T7 promoter. The resulting insoluble inclusion bodies were separated from cellular debris by cross-flow filtration and solubilized by homogenization with 6 M guanidine HCl. Attempts at refolding rhIL-7 from solubilized inclusion bodies without prior purification of monomeric, denatured rhIL-7 were not successful. Denatured, monomeric rhIL-7 was therefore initially purified by size-exclusion chromatography using Prep-Grade Pharmacia Superdex 200. Correctly folded rhIL-7 monomer was generated by statically refolding the denatured protein at a final protein concentration of 80-100 microg/ml in 100 mM Tris, 2mM EDTA, 500 mM L-arginine, pH 9.0, buffer with 0.55 g/l oxidized glutathione at 2-8 degrees C for at least 48 h. The refolded rhIL-7 was subsequently purified by low-pressure liquid chromatography, using a combination of hydrophobic interaction, cation-exchange, and size-exclusion chromatography. The purified final product was >95% pure by SDS-PAGE stained with Coomassie brilliant blue, high-pressure size-exclusion chromatography (SEC-HPLC), and reverse-phase HPLC. The endotoxin level was <0.05 EU/mg. The final purified product was biologically active in a validated IL-7 dependent pre-B-cell bioassay. In anticipation of human clinical trials, this material is currently being evaluated for safety and efficacy in non-human primate toxicology studies.

The serum factor from patients with ulcerative colitis that induces T cell proliferation in the mouse thymus is interleukin-7.

The disturbance of immune regulatory T cells is related to the pathogenesis of ulcerative colitis. Here we demonstrated and characterized the serum factor from ulcerative colitis patients that induced proliferation of intrathymic T cells. The factor isolated from the patient sera by a combination of gel filtration and anion-exchange chromatography induced proliferation of CD4+CD8- intrathymic T cells in the organ-cultured embryonic mouse thymus. Purification and amino acid sequence analysis of the serum factor demonstrated that the N-terminal 12 sequence was homologous to that of interleukin-7. SDS-PAGE and Western blot confirmed that purified serum factor was interleukin-7. Enzyme immunoassay demonstrated that the serum interleukin-7 concentration was significantly increased in the patients. PCR and Southern blot hybridization demonstrated that interleukin-7 mRNA expression was increased in the thymus tissues from patients but decreased in the colonic mucosa. Since interleukin-7 is a crucial cytokine for proliferation and differentiation of T cells in the thymus, the present study indicates that interleukin-7 may contribute to the disturbance of immune regulatory T cells in ulcerative colitis.

Murine interleukin 7 (IL-7) receptor. Characterization on an IL-7-dependent cell line.

A murine cell line (IxN/2b) absolutely dependent upon exogenous IL-7 for continued growth has been obtained that expresses lymphoid precursor and class I MHC antigens and also contains a rearranged mu heavy chain. This cell line has been used to define the binding and structural characteristics of the murine IL-7 receptor using 125I-labeled recombinant murine IL-7. 125I-IL-7 binding to IxN/2b cell was rapid and saturable at both 4 degrees and 37 degrees C. Equilibrium binding studies produced curvilinear Scatchard plots at both temperatures with high and low affinity Ka values of approximately 1 x 10(10) M-1 and 4 x 10(8) M-1, respectively, and a total of 2,000-2,500 IL-7 binding sites expressed per cell. Experiments measuring inhibition of binding of 125I-IL-7 by unlabeled IL-7 also produced data consistent with the existence of two classes of IL-7 receptors. Evidence concerning the possible molecular nature of two classes of IL-7 receptors was provided by dissociation kinetics and affinity crosslinking experiments. The dissociation rate of 125I-IL-7 was markedly increased when measured in the presence of unlabeled IL-7 at both 37 degrees and 4 degrees C, which is diagnostic of a receptor population displaying negative cooperativity. Crosslinking studies showed that under both reducing and nonreducing conditions, the major crosslinked species observed corresponded to a receptor size of 75-79 kD while a less intense higher molecular mass crosslinked species was also seen which corresponded to a receptor size approximately twice as large (159-162 kD). Both types of experiments suggest that the IL-7 receptor may form noncovalently associated dimers in the membrane. The IL-7 receptor was expressed on pre-B cells, but not detected on several murine B cell lines or primary mature B cells. It was also expressed on murine thymocytes, some T lineage cell lines, and on bone marrow-derived macrophage. All cells binding 125I-IL-7 exhibited curvilinear Scatchard plots. No cytokines or growth factors tested were able to inhibit binding of 125I-IL-7 to its receptor. These results define the initial binding and structural characteristics, and the cellular distribution, of the murine IL-7 receptor.