"[palmitoylated peptides] were synthesized by CPC Scientific Inc. (Sunnyvale, CA, USA), each obtained as a white lyophilised powder and stored at 4 °C protected from light. All peptides were synthesized by peptide solid-phase synthesis."
Abstract
Peptides are ideal drug candidates due to their potency and specificity, but suffer from a short half-life and low membrane permeability. Acylation can overcome these limitations but the consequences to stability under different formulation conditions and stresses are largely unreported. Using synchrotron radiation circular dichroism (SRCD), we show that palmitoylation of a 28 amino acid peptide hormone (pI 9.82) induced a structural transition from 310-helix to α-helix, irrespective of buffer type and pH investigated (5.5–8.0) when compared to the non acylated analogues. These conformational preferences were retained in the presence of non-ionic micelles but not anionic micelles, which induced an α-helical structure for all peptides. Palmitoylation promoted an irreversible peptide denaturation under thermal stress at pH ≥ 6.5 and increased the propensity for loss of helical structure under high photon flux (here used as a novel accelerated photostability test). The presence of either ionic or non-ionic micelles did not recover these conformational changes over the same irradiation period. These results demonstrate that acylation can change peptide conformation and decrease thermal-/photo-stability, with important consequences for drug-development strategies.
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CPC Scientific at DCAT 2025!
GMP Peptide Manufacturing
What an amazing time we had at DCAT 2025! It was fantastic to meet with colleagues, clients, and friends, and showcase CPC Scientific’s cutting-edge capabilities in synthetic API development and commercial production.
A heartfelt […]
We are excited to share that CPC Scientific Inc. has officially received the Good Manufacturing Practice (GMP) Certificate in accordance with the ISO 22716:2007(E) Cosmetic Guidelines.
This certification highlights our unwavering commitment to delivering the highest quality peptide ingredients for cosmetic use, guaranteeing:
- Superior Quality Control – Striving for excellence in safety, consistency, and purity.
[…]
In Part 1 of our Minimal Protection Group Strategies for SPPS, we discussed methods for eliminating sidechain protection on hydroxy-bearing amino acids such as serine, threonine, tyrosine, and hydroxyproline. By omitting t-butyl protection, we enhanced atom economy and avoided the use of hazardous solvents typically required to remove these protection groups. In Part 2, we present a new case study, expanding our approach to include the unprotected side chains of histidine, tryptophan, and arginine. We demonstrate the synthesis of a Goserelin peptide API impurity, showcasing how a convergent peptide fragment strategy can be used to eliminate the need for TFA and diethyl ether, eliminate side chain protection of Arginine, Histidine, and Tryptophan.
The synthesis of the linear RP-182 analog, bicyclo[6.1.0]non-4-yn-9-ylmethyloxycarbonyl-PEG2-Lys-Phe-Arg-Lys-Ala-Phe-Lys-Arg-Phe-Phe-Lys(azido-PEG)-NH2, was achieved using standard solid-phase peptide synthesis (SPPS) protocols. After cleaving the linear peptide from the resin, macrocyclization was performed in the liquid phase through a strain-promoted click reaction. BCN introduces extra ring strain due to its fused cyclopropane structure. The combined effect of ring strain, the selection of BCN, and copper catalysis significantly increases the macrocyclization efficiency of longer peptides like RP-182.
Nakagawa, Mayumi, Teresa Evans, Milan Bimali, Hannah Coleman, Jasmine Crane, Nadia Darwish, Jennifer L. Faulkner et al. MedRxiv (2025): 2025-01.
The vaccine consisted of four current good manufacturing production-grade synthetic peptides covering the HPV 16 E6 protein [amino acid (aa)1-45, 46-80, 81-115, and 116-158] (CPC Scientific, San Jose, CA [..]
Stapled peptides have emerged as a powerful tool in drug discovery and therapeutic development due to their ability to overcome the limitations associated with traditional peptide drugs, such as poor stability and low cell permeability. By introducing staples into the peptide backbone, researchers can stabilize peptide conformations and enhance their interactions with target proteins, resulting in improved efficacy and specificity. This approach not only addresses the challenges of peptide drug design but also opens new avenues for targeting challenging biomolecular interactions that are difficult to modulate with small molecules or antibodies. The development of stapled peptides has led to significant advancements in targeting protein-protein interactions, addressing previously intractable diseases, and enhancing the precision of therapeutic interventions.
Peptide receptor radionuclide therapy (PRRT) is a targeted therapeutic approach that utilizes peptides to deliver cytotoxic radiation to specific receptors overexpressed on cancer cells. Peptides offer several advantages as therapeutic vectors in PRRT due to their small size, favorable pharmacokinetics, high binding affinity, low immunogenicity and toxicity, and minimal off-target effects. Tumor-targeting peptides conjugated to radionuclide chelates represent a promising class of cancer therapeutics.
Singh, S.S., Calvo, R., Kumari, A., Sable, R.V., Fang, Y., Tao, D., Hu, X., Castle, S.G., Nahar, S., Li, D. and Major, E. Molecular Cancer Therapeutics (2024).
- CPC Scientific Inc., 160E Tasman Dr., Suite 200, San Jose, CA 95134
[..] assembling the peptide on the Rink Amide resin and attaching the PEG azide moiety to the N-terminal Lys, the Dde group was removed as previously shown and coupled to the Fmoc-PEG2-acid. Removal of the Fmoc followed by simultaneously click/coupling to bicyclo[6.1.0]non-4-yn-9-ylmethyl (2,5-dioxopyrrolidin-1-yl) carbonate gave 1c which was deprotected and cleaved from the resin to give 1c.
Most proteinogenic peptides, except for certain hydrophobic sequences, can be synthesized in a linear fashion using solid-phase peptide synthesis (SPPS) methods. However, longer sequences, particularly those exceeding 70 amino acids, often require alternative techniques due to challenges like steric hindrance. Other issues, such as poor solvation of the protected peptide during synthesis and the formation of intermolecular hydrogen bonds (e.g., β-sheets) between fragments, can also result in inefficient coupling and deprotection.