Lipopolysaccharide removal affinity matrices based on novel cationic amphiphilic peptides.

Lipopolysaccharide (LPS) is one of the most challenging contaminants in biopharmaceutical industries. Cationic amphiphilic peptides (CAPs) -based affinity matrices can be potent tools for LPS removal in such situations. In this study, two newly designed CAPs derived from the LPS binding site of factor C of horseshoe crab S3E3 and S3E3A were immobilized chemo-selectively on diaminodipropylamine (DADPA) and iodoacetyl functionalized Sepharose beads. Both peptides were immobilized via their carboxyl or sulfhydryl (thiol) groups by amide or thioether bonds, respectively. The generated four affinity matrices were used to remove LPS from bovine serum albumin (BSA). The effects of different influential factors including pH, NaCl, Ethylenediaminetetraacetic acid (EDTA), and LPS concentrations on LPS removal efficiency and protein recovery were investigated by Plackett Burman (PB) method.Statistical analysis revealed that immobilized S3E3 removed LPS more effectively than immobilized S3E3A. Increasing pH and LPS concentration had negative effects on LPS removal efficiency and protein recovery. Increasing NaCl concentration improved protein recovery but reduced LPS removal efficiency. Other factors such as EDTA and type of buffer had no significant effect on the measured responses.

Chlorambucil-Chitosan Nano-Conjugate: An Efficient Agent Against Breast Cancer Targeted Therapy.

BACKGROUND: Discovering new chemotherapy drugs and techniques with the least side effects is one of the most important and challenging issues in recent years worldwide. Chlorambucil is an anticancer drug that is still commonly used as a primary treatment in treating some cancers, but it can cause side effects. OBJECTIVE: In this study, we decided to use chitosan as a carrier to enhance the uptake of chlorambucil and reduce the toxicity of this drug. METHODS: After producing this nanoconjugate compound and analysing its structure by FTIR, DLS and AFM analysis, we investigated the therapeutic and biological effects of this nanoconjugate compound on the MCF-7 cell line (breast cancer). RESULTS: The results of the MTT assay showed that this nanoconjugate compound not only retained its anticancer effect against chlorambucil but also showed less abnormal toxicity. In addition, in vitro cellular uptake by flow cytometry indicated the better uptake final product into the MCF-7 cells. The detection of apoptosis induced cell death was confirmed by RT-PCR. CONCLUSION: This study has created a prospective pathway for targeting cancer cells using chitosan.

Effect of glutamic acid elimination/substitution on the biological activities of S3 cationic amphiphilic peptides.

Cationic amphiphilic peptides (CAPs) are usually classified as bacterial membrane targeting molecules. Rational design and modification of cationic and amphiphilic properties of CAPs have made them to be used in new medical and biotechnological applications. However, CAPs modification and development strategies are challenging issues due to the risk of cytotoxicity or hemolytic activity. In this research, modified variants of S3 peptide were introduced. S3 is a linear 34 amino acid peptide derived from the lipopolysaccharide (LPS) binding site of factor C in horseshoe crab's hemolymph. Net positive charges of variants (S3E3 and S3E3A) increased by either eliminating negatively charged residues of the peptides or substituting them with alanine. Different biological activities of new variants including LPS binding affinity, antimicrobial activity, cytotoxicity against human breast tumor cell line, and hemolytic property were studied and compared to those of S3 peptide. S3E3 variant showed 68.5% higher LPS binding affinity, 40.4% stronger anti-microbial activity, conserved hemolytic property with the same anti-cancer activity compared to S3peptide. These results revealed that elimination/substitution of negatively charged residues will be a proper strategy for modification of S3 peptide.

Recombinant Tandem Repeated Expression of S3 and SΔ3 Antimicrobial Peptides.

BACKGROUND: Antimicrobial peptides (AMPs) are promising candidates for new generations of antibiotics to overcome the threats of multidrug-resistant infections as well as other industrial applications. Recombinant expression of small peptides is challenging due to low expression rates and high sensitivity to proteases. However, recombinant multimeric or fusion expression of AMPs facilitates cost-effective large-scale production of AMPs. In This project, S3 and SΔ3 AMPs were expressed as fusion partners. S3 peptide is a 34 amino acid linear antimicrobial peptide derived from lipopolysaccharide (LPS) binding site of factor C of horseshoe crab hemolymph and SΔ3 is a modified variant of S3 possessing more positive charges. METHODS: Two copy tandem repeat of the fusion protein (named as SΔ3S3-2mer-GS using glycine- serine linker was expressed in E. coli. BL21 (DE3). After cell disruption and solubilization of inclusion bodies, the protein was purified by Ni -NTA affinity chromatography. Antimicrobial activity and cytotoxic properties of purified SΔ3S3-2mer-GS were compared with a previously produced tetramer of S3 with the same glycine- serine linker (S3-4mer-GS) and each of monomeric blocks of S3 and SΔ3. RESULTS: SΔ3S3-2mer-GS was successfully expressed with an expression rate of 26%. The geometric average of minimum inhibitory concentration (MIC GM) of SΔ3S3-2mer-GS was 28%, 34%, and 57% lower than SΔ3, S3-4mer-GS, and S3, respectively. SΔ3S3-2mer-GS had no toxic effect on eukaryotes human embryonic kidney cells at its MIC concentration. CONCLUSION: tandem repeated fusion expression strategy could be employed as an effective technique for recombinant production of AMPs.

Novel radiopharmaceutical (Technetium-99m)-(DOTA-NHS-ester)-Methionine as a SPECT-CT tumor imaging agent.

Breast cancer is the most common type of cancer in women worldwide. There have been many efforts for early breast cancer detection and among them molecular imaging have been extremely of high importance. Single-photon emission computed tomography (SPECT/CT) is a kind of imaging technique able to reveal crucial information with using radiopharmaceuticals. In this study, Technetium-99m-(DOTA-NHS-ester)-Methionine radiopharmaceutical was synthesized. Between 1,4,7,10-Tetraazacyclododecane-1,4,7,10-tetraacetic acid mono-N-hydroxysuccinimide ester (DOTA-HNS ester) (MACROCYCLICS, DOTA-NHS ester, Plano, Texas, USA) and methionine(marker) were conjugated. The DOTA-HNS ester-Methionine was labeled with Technetium-99m (Inter-Medical, Technetium-99m, Bergamo, Italy). The synthesized radiopharmaceutical was used in SPECT/CT imaging for breast cancer diagnosis. For radiopharmaceutical evaluation, MTT assay for cellular toxicity, biodistribution, cellular uptake and radiochemical purity were employed.Technetium-99m-(DOTA-NHS-ester)-Methionine radiochemical had less cellular toxicity in human embryonic kidney cells 293 cell line (HEK293). Cellular uptake was indicated higher percent with use of Methionine as a marker, and radiochemical purity was high. Based on the results Technetium-99m-(DOTA-NHS-ester)-Methionine radiochem may be a better option for early detection of breast cancer. Further study is recommended to confirm these findings in clinical practice.

Production of Erythropoietin-Specific Polyclonal Antibodies.

BACKGROUND: Erythropoietin, as a principal hormone promotes red blood cell production in bone marrow. Varieties of erythropoietin biosimilar are being produced by recombinant DNA technology in cell cultures. The detection or quantifi cation of these molecules are being performed by diff erent methods which some of theme such as Western blot and enzymelinked immunosorbent assay (ELISA) require specifi c antibodies. High cost, inappropriate shipping (cold chain failures), reduced sensitivity and thus poor detection performance are common pitfalls of using commercial kits for performing immunological tests. OBJECTIVES: To produce in-house polyclonal antibody against active pharmaceutical ingredient (API) of recombinant human erythropoietin (rh-EPO) was the aim of this study. MATERIALS AND METHODS: Two healthy female albino rabbits were injected four times in 14 days interval using rh-EPO API as antigen. The produced antibody was separated from plasma via either caprylic acid or saturated ammonium sulfate precipitation and the results were compared from each purification methodologies. The antibody was further purified by ion exchange chromatography. Acceptable purity and good immunogenicity were detected respectively by SDS-PAGE and western blot analysis. The purified antibody was compared with a commercial kit to determine rh-EPO concentration in diff erent steps of production batches via ELISA. RESULTS: The purity of antibodies after ion exchange chromatography, obtained from caprylic acid and ammonium sulfate precipitation were 97 and 80%, respectively. CONCLUSIONS: As producing in house kits is one of the important challenges of bio- pharmaceutical manufacturers, a simple, cost- and time-effective, and easy to scale up strategy for making in-house polyclonal antibody was set up. Caprylic acid precipitation resulted higher purity than ammonium sulfate and fi nally purified antibody (97% purity) used as a capture antibody in sandwich ELISA test was able to detect erythropoietin antigen as sensitive (100%) and specifi c (100%) as commercial kits.

Stability and biological activity evaluations of PEGylated human basic fibroblast growth factor.

BACKGROUND: Human basic fibroblast growth factor (hBFGF) is a heparin-binding growth factor and stimulates the proliferation of a wide variety of cells and tissues causing survival properties and its stability and biological activity improvements have received much attention. MATERIALS AND METHODS: In the present work, hBFGF produced by engineered Escherichia coli and purified by cation exchange and heparin affinity chromatography, was PEGylated under appropriate condition employing 10 kD polyethylene glycol. The PEGylated form was separated by size exclusion chromatography. Structural, biological activity, and stability evaluations were performed using Fourier transform infrared (FITR) spectroscopy, 3-(4,5-dimethylthiazol-2yl)-2,5-diphenyltetrazolium bromide (MTT) assay and effect denaturing agent, respectively. RESULTS: FITR spectroscopy revealed that both PEGylated and native forms had the same structures. MTT assay showed that PEGyalated form had a 30% reduced biological activity. Fluorescence spectrophotometry indicated that the PEGylated form denatured at higher concentrations of guanidine HCl (1.2 M) compared with native, which denatured at 0.8 M guanidine HCl. CONCLUSIONS: PEGylation of hBFGF makes it more stable against denaturing agent but reduces its bioactivity up to 30%.

Investigation of purification process stresses on erythropoietin peptide mapping profile.

BACKGROUND: Full compliance of recombinant protein peptide mapping chromatogram with the standard reference material, is one of the most basic quality control tests of biopharmaceuticals. Changing a single amino acid substitution or side chain diversity for a given peptide changes protein hydrophobicity and causes peak shape or retention time alteration in a peptide mapping assay. In this work, the effect of different stresses during the recombinant erythropoietin (EPO) purification process, including pH 4, pH 5, and room temperature were checked on product peptide mapping results. MATERIALS AND METHODS: Cell culture harvest was purified under stress by different chromatographic techniques consisting of gel filtration, anionic ion exchange, concentration by ultrafiltration, and high resolution size exclusion chromatography. To induce more pH stresses, the purified EPO was exposed to pH stress 4 and 5 by exchanging buffer by a 10 KDa dialysis sac overnight. The effects of temperature and partial deglycosylation (acid hydrolysis) on purified EPO were also studied by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and peptide mapping analysis. Removal of sialic acid by mild hydrolysis was performed by exposure to two molar acetic acid at 80°C for 3 h. RESULTS: No significant effect was observed between intact and stressed erythropoietin peptide mapping profiles and SDS-PAGE results. To validate the sensibility of the technique, erythropoietin was partially acid hydrolyzed and significant changes in the chromatographic peptide map of the intact form and a reduction on its molecular weight were detected, which indicates some partial deglycosylation. CONCLUSIONS: Purification process does not alter the peptide mapping profile and purification process stresses are not the cause of peptide mapping noncompliance.