LifeTein Peptide Blog

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Predicting type 1 diabetes in children

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A tumor-permeable peptide iRGD by LifeTein targets peritoneal carinomatosis

To Make Simpler and Better Biosensors

Predicting type 1 diabetes in children

Posted on January 14, 2016 by LifeTein Peptide

MAP is a pathogenic bacterium infecting livestock and found prevalent in dairy products. Because some of its proteins are sequentially homologous to human zinc transporter 8 (ZnT8) protein and proinsulin (PI), children could develop autoimmunity against ZnT8 and PI after being exposed to MAP in dairy foods, and generating antibodies against MAP, and might subsequently develop type I diabetes. The hypothesis was tested by using ZnT8, PI and MAP peptides synthesized by LifeTein to assess the cross-reactivity of antibodies in sera samples from at-risk children.

Type 1 Diabetes in Children

Journal of Diabetes Research, Article ID 5842701, in press. Recognition of ZnT8, Proinsulin, and Homologous MAP Peptides in Sardinian Children at Risk of T1D Precedes Detection of Classical Islet Antibodies.

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Nanoparticles Get Help from Cell-Permeable Peptides

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A tumor-permeable peptide iRGD by LifeTein targets peritoneal carinomatosis

To Make Simpler and Better Biosensors

Advancing Cancer Treatment with LifeTein’s Peptide Synthesis in Antibody Therapy

Posted on January 14, 2016 by LifeTein Peptide

LifeTein’s Role in Overcoming Cetuximab Resistance in Colorectal Cancer

In the ongoing battle against cancer, monoclonal antibody therapies have emerged as a beacon of hope. Cetuximab, a therapeutic monoclonal antibody, has been developed to halt tumor growth by targeting the extracellular domain of the Epidermal Growth Factor Receptor (EGFR) on cancer cells’ surfaces. However, the emergence of resistance to cetuximab in clinical settings has posed a significant challenge.

Researchers have made a breakthrough using peptides synthesized by LifeTein to address this critical issue. By incorporating methylated arginine residues into these peptides, scientists successfully generated specific antibodies in mice. This innovative approach led to the discovery that Arg198 and Arg200 of EGFR undergo methylation by protein arginine methyltransferase 1 (PRMT1) in colorectal cancer cells. This methylation is now understood to be a key factor in the development of resistance to cetuximab.

The findings, published in the Journal of Clinical Investigation (2015;125(12):4529-4543. doi:10.1172/JCI82826), highlight the potential of PRMT1-mediated methylation of the EGF receptor as a target for overcoming cetuximab resistance. This research paves the way for developing more effective treatments for cancer patients, marking a significant advancement in the field.

LifeTein’s Comprehensive Peptide Synthesis Services

LifeTein’s contribution to this groundbreaking research is part of their broader commitment to advancing scientific discovery through their peptide synthesis services. Their offerings include:

COVID-19 Services & Products: Addressing the urgent needs of the pandemic.
Custom Antibody Services: Tailored solutions for specific research needs.
Rush Peptide Synthesis: Accelerated synthesis for time-sensitive projects.
Peptide Nucleic Acids (PNAs): Offering versatility in genetic research.
Custom Peptide Synthesis Services: Expertise in synthesizing complex peptides.
Gene Synthesis Service: Advanced techniques for precise gene construction.
Custom Chemical Synthesis: Broadening the scope of molecular innovation.

Exploring Other Innovations by LifeTein

LifeTein is not just limited to cancer research. Their expertise in peptide synthesis has led to various other significant contributions in the biomedical field:

Nanoparticles Enhanced by Cell-Permeable Peptides: LifeTein’s peptides are instrumental in improving the delivery and efficacy of nanoparticles in therapeutic applications.
Predicting Type 1 Diabetes in Children: Leveraging peptide technology, LifeTein is at the forefront of developing predictive tools for early detection of type 1 diabetes in pediatric populations.
Targeting Peritoneal Carcinomatosis with iRGD Peptide: The tumor-permeable peptide iRGD, synthesized by LifeTein, is a promising agent in targeting peritoneal carcinomatosis, enhancing drug delivery to tumor sites.
Simplifying and Enhancing Biosensors: LifeTein’s peptides play a crucial role in developing simpler, more efficient biosensors, pushing the boundaries of diagnostic technology.
Innovative Patents Using Peptides: LifeTein’s cutting-edge research has led to new patents in peptide-based technologies, showcasing their commitment to innovation and scientific advancement.

LifeTein’s pivotal role in overcoming cetuximab resistance in colorectal cancer is a testament to its expertise in peptide synthesis and its applications in medical research. Their diverse range of services and contributions to various fields underscore their commitment to advancing scientific knowledge and developing solutions for pressing health challenges. As LifeTein continues to explore the frontiers of peptide synthesis, their work not only illuminates the path to better cancer treatments but also opens doors to new possibilities in biomedical research and therapeutics.

To Make Simpler and Better Biosensors

Posted on January 14, 2016 by LifeTein Peptide

In order to improve the design of immunosensors, fluorophores were conjugated on to the single chain Fv (scFv) fragment of a recombinant anti-BGP antibody to form Quenchbodies (Q-bodies), in which their fluorescence is internally quenched by Trp residues of scFv. Unlabeled and biotinylated BGP peptides made by LifeTein were used in ELISA and FRET assays as the ligand to evaluate the quality of Qbodies, and to demonstrate the antigen-dependent fluorescence of Qbodies.

Making Simpler & Better Biosensors

ACS Sensors, Article ASAP. DOI: 10.1021/acssensors.5b00089. Q-Bodies from Recombinant Single-Chain Fv Fragment with Better Yield and Expanded Palette of Fluorophores.

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Nanoparticles Get Help from Cell-Permeable Peptides

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Predicting type 1 diabetes in children

A tumor-permeable peptide iRGD by LifeTein targets peritoneal carinomatosis

A tumor-penetrating peptide enhances circulation-independent targeting of peritoneal carcinomatosis, Journal of Controlled Release, Volume 212, 28 August 2015, Pages 59–69

Innovative Tumor-Permeable Peptide iRGD Targets Cancer with Precision

Posted on July 13, 2015 by LifeTein Peptide

A tumor-penetrating peptide, iRGD, was synthesized by LifeTein. It was found that iRGD improves tumor-specific penetration of intraperitoneal compounds and enhances intraperitoneal chemotherapy (IPC) in mice. This penetration was tumor-specific. When the FITC was attached to iRGD and mixed with nanoparticles, the mixture could penetrate into fresh human peritoneal metastasis explants. The evidence proved that the LifeTein iRGD enhanced intratumoral entry. The intraperitoneal iRGD co-administration is a simple and effective strategy to facilitate tumor detection and potential application for therapeutic improvement.

LifeTein’s Peptide: iRGD

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Nanoparticles Get Help from Cell-Permeable Peptides

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Predicting type 1 diabetes in children

To Make Simpler and Better Biosensors

Peptide Applications

Posted on June 2, 2015 by LifeTein Peptide

Peptides can be used in a wide variety of research applications:

Anti-microbial Peptides

81 oligopeptides were synthesized by LifeTein and tested for inhibition of Enterococcus faecalis V583. Three peptides were found to inhibit V583. The peptide (NH2-VAVLVLGA-COOH) possessed activity in picomolar concentrations, being >10^6 -fold more active than the only other two and showing inhibitory activity. Pheromone killing of multidrug-resistant Enterococcus faecalis V583 by native commensal strains, PNAS, 2015 The fungal pathogen causes the skin disease for amphibians. Use of a potent antibiotic cocktail dramatically reduced culturable skin bacteria within 48 h. The synthetic peptides by LifeTein were used to reduce the skin bacteria. SSkin bacteria provide early protection for newly metamorphosed southern leopard frogs (Rana sphenocephala) against the frog-killing fungus, Batrachochytrium dendrobatidis, Biological Conservation, 2015

Anti-inflammatory Peptides

Anti-inflammatory peptides were isolated from alcalase hydrolysates out of tuna cooking juice by-product. Synthetic peptides from LifeTein were used to confirm the inhibitory anti-inflammatory activity. The amino acid sequences of the two anti-inflammatory peptides isolated from AH hydrolysates were Pro-Arg-Arg-Thr-Arg-Met-Met-Asn-Gly-Gly-Arg (1543.8 Da) and Met-Gly-Pro-Ala-Met-Met-Arg-Thr-Met-Pro-Gly (1211.5 Da).

Epitope Mapping

Peptide scanning involves the chemical synthesis of overlapping peptides covering the antigen sequence targeted by the investigated antibodies. Peptide truncations are used to further narrow down the epitope sequence and mutagenesis of each amino acid such as alanine substitution can also indicate the binding affinity. Cross-reactive epitopes were found in Borrelia burgdorferi p66. Cross-reactive epitopes in Borrelia burgdorferi p66, Clinical and Vaccine Immunology, 2015

Cell Penetrating Peptides and Scrambled Peptides

The CD81 peptides tagged with cell penetrating peptide RRRRRRR were used for the binding assay. The synthetic peptides from LifeTein were used to investigate the role of CD81 in the regulation of defense mechanisms against microbial infections. The scrambled peptides, RRRRRRR- CCGIRNSSVY, were used as the negative control for the study. CD81 Controls Immunity to Listeria Infection through Rac-Dependent Inhibition of Proinflammatory Mediator Release and Activation of Cytotoxic T Cells, The Journal of Immunology, 2015

Receptor Binding Study

His-tagged GLP-1 (7-36), glucagon, and gastric inhibitory polypeptides (GIP) by LifeTein were used to study GLP-1 receptor signaling regulation. The GLP-1 peptides bind specifically with lipids but not that of exendin 4.The His-Tagged GLP-1 were used for the binding reaction. The free peptide was captured by Cu++-NTA resin. The results indicated that His-tagged GLP-1 peptide binds to OEA in a dose-dependent and saturable way. Modulation of Glucagon-like Peptide (GLP)-1 Potency by Endocannabinoid-like Lipids Represents A Novel Mode of Regulating GLP-1 Receptor Signaling. Journal of Biological Chemistry, 2015

Antibody Blocking Peptides

Peptides can be used as blocking peptides for the competition assay. The excess of blocking peptides (20:1 peptide: antibody ratio) from LifeTein were mixed with antibodies. The antibody was neutralized in this way by incubating with an excess of peptide that corresponds to the epitope recognized by the antibody. The neutralized antibody is then used side-by-side with the antibody alone, and the results are compared. Whole Exome Sequencing Reveals ZNF408 as a New Gene Associated With Autosomal Recessive Retinitis Pigmentosa with Vitreal Alterations, Human Molecular Genetics, 2015

Protein-Protein Interactions

The B-cell lymphoma 2 (Bcl-2) peptides were biotinylated at N terminus for the protein-protein interactions. The biotin-BH4-Bcl-XL peptide and the scrambled peptide were immobilized on different channels of a streptavidin-coated sensor chip. Studies showed that Bcl-XL bound to the central domain of RyR3 via its BH4 domain. Further analysis of a mutated peptide at a specific site Lys87 showed a reduced binding affinity. These data suggest that BH4 domain and its specific site of Lys87 contributes to the interaction. Ryanodine receptors are targeted by anti-apoptotic Bcl-XL involving its BH4 domain and Lys87 from its BH3 domain, Nature Scientific Reports, 2015

Our Services: COVID-19 Services & Products Custom Antibody Services Rush Peptide Synthesis, Peptide Nucleic Acids (PNAs) Custom Peptide Synthesis Services Gene Synthesis Service Custom Chemical Synthesis Other Posts: To Make Simpler and Better Biosensors A Simple Protocol to Refold Peptides or Small Proteins LifeTein Peptides Used for Pulldown Assay

A Simple Protocol to Refold Peptides or Small Proteins

Posted on February 10, 2015 by LifeTein Peptide

Understanding the process of peptide folding is a critical first step toward understanding protein folding. Depending on the temperature and solvent conditions, peptides are highly flexible and can adopt a variety of conformations in solution. Many unfolded peptides could spontaneously refold in vitro to form a native protein with full biological activity in the absence of other factors. Peptide fragments of proteins often have intrinsic propensities for the formation of their native conformations.

Peptide Folding

Proteins are the workhorses inside living cells. The interactions among proteins are critical for various important biological processes. Almost about 15-40% of the protein-protein interactions are peptide-mediated. A short stretch of amino acid residues from one protein partner contributes most to its binding to the other protein structure. These short linear interacting motifs can be found embedded inside disordered regions of intrinsically disordered proteins, or appear as flexible linkers connecting function regions and as flexible loops to rigid fragments and domains.

The primary sequence contains all the information to define the three-dimensional structure of a protein and its biological functions. The mutation or deletion of any amino acid may have a big impact on folding and stability. It takes nanoseconds (ns) for the peptide to form an intermolecular contact. The timescale of loop closing is 10 nanoseconds (ns). The formation of alpha-helical peptides is 200 ns, beta hairpins, and mini-proteins in 1–10 ms timescale. Many studies had a very good agreement between measured and calculated folding rates. Many factors such as temperature, pH, molecular chaperones, salts, and denaturants may affect a peptide in reaching its native state.

So it is critical to minimize factors that affect protein refolding. A successful folding should have inadequate denaturant concentrations to destabilize the native state of a peptide or protein. GuHCL can be used in order to disrupt the hydrophobic interactions within the tertiary structure.

The peptide was solubilized in resuspension buffer (50 mM Tris, pH 8, 6 M GuHCl (Sigma, G4505), 10 mM DTT, 2mM EDTA) by vortexing.
Use enough resuspension buffer such that the final peptide concentration is 0.2mg/ml.
The resuspended peptide was then diluted 50% in dialysis buffer #1 (50 mM Tris, pH 8, 2 M GuHCl, 2mM EDTA) resulting in a 4 M GuHCl-containing solution.
The peptide solution was then dialyzed overnight at 4°C in snakeskin dialysis tubing (Pierce) against 2 L of buffer #1.
The following day the dialysis buffer was changed to 2 L of dialysis buffer #2 (50 mM Tris, pH 8, 1 M GuHCl, 0.4 M Arginine (Sigma, A5006), 3 mM Reduced Glutathione, 0.9 mM Oxidized Glutathione, 2mM EDTA) for overnight dialysis at 4°C.
The following day the dialysis buffer was diluted 50% with water and dialysis continued overnight.
Any insoluble material was centrifuged (18000×g at 2–8°C for 20 minutes) and the remaining peptide solution dialyzed overnight at 4°C against 1 L of dialysis buffer #3 (50 mM Tris, pH 8, 250 mM NaCl, 0.1 M Arginine, 3 mM Reduced Glutathione, 0.9 mM Oxidized Glutathione, 2mM EDTA) to remove the remaining GuHCl.
The final dialyzed protein solution was clarified by centrifugation (18000×g at 2–8°C for 20 minutes) and the supernatant was separated by RP-HPLC.

References:

Current Opinion in Structural Biology 2003, 13:168–174
Reversible Peptide Folding in Solution by Molecular Dynamics Simulation, J. Mol. Biol. (1998) 280, 925-932
A Simplified Method for the Efficient Refolding and Purification of Recombinant Human GM-CSF.

Protein Refolding for Western Blotting

For refolding, proteins in the SDS-Polyacrylamide gels were incubated in transfer buffer I (0.01% Triton X-100, 48 mM Tris, 39 mM Glycine, 20%methanol, pH 9.2) twice for 15 min, and then transfer buffer II (48 mM Tris, 39 mM Glycine, 20%methanol, pH9.2) twice for 15 min, then transferred onto Immobilon-P membranes (Millipore) in transfer buffer II and processed by standard procedures for Western blots.

Reference: Zhou J, Blissard GW. Mapping the conformational epitope of a neutralizing antibody (AcV1) directed against the AcMNPV GP64 protein. Virology. 2006 Sep 1;352(2):427-37. doi: 10.1016/j.virol.2006.04.041. Epub 2006 Jun 14. PMID: 16777166; PMCID: PMC3767133.

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Reference: Acetylation of TUG Protein Promotes the Accumulation of GLUT4 Glucose Transporters in an Insulin-Responsive Intracellular Compartment, The Journal of Biological Chemistry, January 5, 2015, doi: 10.1074/jbc.M114.603977 jbc.M114.603977.

Other Posts: To Make Simpler and Better Biosensors LifeTein Peptides Used for Pulldown Assay Peptide Applications

LifeTein Peptides Used for Pulldown Assay

Posted on January 12, 2015 by LifeTein Peptide

LifeTein synthesized multiple peptides for the pulldown experiments. The peptides were synthesized with biotin on the N terminus and an aminohexanoic acid linker. Two types of peptides were designed: peptide without acetylation and peptide with multiple lysines (up to five sites) were acetylated in the synthetic peptides.

Pulldown Experiments With LiteTein Peptides

These peptides were bound to streptavidin-agarose beads and used for pulldown experiments using cell lysates. Peptides, streptavidin agarose beads, and cell lysates were permitted to bind for overnight at 4 °C, then beads were pelleted, washed five times using spin columns, and proteins were eluted in sample buffer and analyzed by SDS-PAGE and immunoblotting. All synthetic peptides had an N-terminal biotin. After incubation, peptides were spotted on nitrocellulose membranes and immunoblotted to detect acetylated Lysine (AcK) or total biotinylated peptide. Data is shown below.

Dot blot for biotin peptide with pulldown assay

Our Services: COVID-19 Services & Products Custom Antibody Services Rush Peptide Synthesis Peptide Nucleic Acids (PNAs) Custom Peptide Synthesis Services Gene Synthesis Service Custom Chemical Synthesis Other Posts: Amino acid composition of cell-penetrating peptides (CPPs) To Make Simpler and Better Biosensors A Simple Protocol to Refold Peptides or Small Proteins Peptide Applications

Synthetic Peptides Used for indirect ELISA

Posted on January 7, 2015 by LifeTein Peptide

Peptides can be used for ELISA assay. A peptide-based indirect ELISA was used to screen a population of 40 Multiple sclerosis patients and 39 healthy controls. The encephalitogenic myelin oligodendrocyte glycoprotein (MOG)35–55 synthetic peptides were synthesized by LifeTein.

LifeTein’s Synthetic Peptides for ELISA

All MOG peptides or Mycobacterium avium subspecies paratuberculosis (MAP) peptides were synthesized at >90% purity by LifeTein to make sure the ELISA results are clean and consistent. The plates were coated with peptides. After overnight incubation, the plate was blocked, rinsed, and late react with antibodies according to the protocol. In silico analysis identified two peptides belonging to MAP and BCG, which share sequence homology with MOG(35–55). The peptide-based indirect ELISA data showed that sharing of highly conserved linear amino acidic sequences is necessary to elicit antibody-mediated cross-reactivity.

These findings concluded that the presence of MOG (35–55)-specific antibodies in multiple sclerosis pathogenesis. This can be used as a diagnostic biomarker in multiple sclerosis.

[PDF] Evaluation of the humoral response against mycobacterial peptides, homologous to MOG35–55, in multiple sclerosis patients

MG Marrosu, LA Sechi – 2014

… All peptides were synthesized at N90% purity commercially (LifeTein, South
Plainfield, NJ 07080 US). Purified peptides were prepared as [10 mM] stock solutions,
and were stored in single- use aliquots at −80 °C. 2.3. ELISA …

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LifeTein Peptide Cited in Cell

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Phospho-specific antibodies by LifeTein published in Nature

Synthesis of multiple antigenic peptides: strategies and limitations

The Structural Basis of Peptide-Protein Binding Strategies

LifeTein Peptide Cited in Cell

Posted on November 18, 2014 by LifeTein Peptide

Peptide library is increasingly used to define antibody epitopes and substrate specificities of protein kinases. For epitope mapping, overlapping peptides are made to span the antigenic protein sequence. The antigenic determinant recognized by a monoclonal antibody can then be screened and defined. The alanine scanning method can also be used to assess that residue’s contribution to antibody binding and to determine which substitutions affect antibody recognition (mutational analysis). Unrelated synthetic peptides can be used to evaluate the antibody cross-reactivity.

Peptide by LifeTein Cited in Cell

Overlapping peptides from LifeTein were used to map the region of Fragment 3 by epitope mapping of anti-Fzd2 antibody. This anti-Fzd2 antibody was found to reduce tumor growth. Wnt signaling plays a critical role in colorectal cancer. Researchers found that Wnt receptor Frizzled2 (Fzd2) and its ligands Wnt5a/b are elevated in metastatic liver, lung, colon, and breast cancer cell lines. Their high level expression correlates with markers of epithelial-mesenchymal transition (EMT). By epitope mapping using synthetic peptides from LifeTein, the researchers mapped the epitope to a specific region. The antibody to Fzd2 was found to reduce cell migration and invasion. Targeting this pathway may provide a cure for patients with tumors expressing high amount of Fzd2 and Wnt5a/b. We have developed an antibody to Fzd2 that reduces cell migration and invasion and inhibits tumor growth and metastasis in xenografts. We propose that targeting this pathway could provide benefit for patients with tumors expressing high levels of Fzd2 and Wnt5a/b.

Cell, Volume 159, Issue 4, 6 November 2014, Pages 844–856, DOI: 10.1016/j.cell.2014.10.032 A Noncanonical Frizzled2 Pathway Regulates Epithelial-Mesenchymal Transition and Metastasis