Yingqin Hou scite author profile

Grafting-from (GF) is an important yet underdeveloped strategy toward protein–polymer conjugates. Here, we report a simple cryopolymerization method that enables highly efficient GF synthesis of cell-penetrating protein–polydisulfide conjugates. Rapid and controlled ring-opening polymerization of 1,2-dithiolanes under cryo-conditions can be initiated by proteins bearing a reactive cysteine, owing to both favored thermodynamics and augmented kinetics arising from frozen-induced high local concentration of substrates. This method is applicable to various wild-type or genetically engineered proteins without the need of chemical installation of an initiation group. The resulting conjugates can be reversibly degrafted under mild conditions to regenerate functional “native” proteins in a traceless fashion. These unique features make such conjugates highly useful in applications such as a dynamic switch of protein functions, cytosolic delivery of protein therapeutics, and protein purification. The method is also potentially useful for the in situ growth of other types of polymers from protein surface.

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Polysarcosine as an Alternative to PEG for Therapeutic Protein Conjugation

Hou

Wang

et al. 2018

Bioconjugate Chem.

119

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The performance of many therapeutic proteins, including human interferon-α2b (IFN), is often impeded by their intrinsic instability to protease, poor pharmacokinetics, and strong immunity. Although PEGylation has been an effective approach to improve the pharmacokinetics of many proteins, a few noticeable limitations have aroused vast research efforts in seeking alternatives to PEG for bioconjugation. Herein, we report our investigation on the use of polysarcosine (PSar), a nonionic and hydrophilic polypeptoid, for IFN modification. The site-specific conjugate PSar-IFN, generated by native chemical ligation in high yield, is systematically compared with a similarly produced PEG-interferon conjugate (PEG-IFN) to evaluate the in vitro and in vivo behaviors. PSar is found to show comparable ability in stabilizing IFN from protease digestion in vitro and prolonging the circulation half-life in vivo. Interestingly, PSar-IFN retains more activity in vitro and accumulates more in the tumor sites upon systemic administration than PEG-IFN. Most importantly, PSar-IFN is significantly more potent in inhibiting tumor growth and elicits considerably less anti-IFN antibodies in mouse than PEG-IFN. Together, our results demonstrate for the first time that PSar is an outstanding candidate for therapeutic protein conjugation. Considering the low toxicity, biodegradability, and excellent stealth effect of PSar, this study suggests that such polypeptoids hold enormous potential for many biomedical applications including protein delivery, colloidal stabilization, and nanomedicine.

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A Concise Approach to Site-Specific Topological Protein–Poly(amino acid) Conjugates Enabled by in Situ-Generated Functionalities

et al. 2016

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Controlling the topology of polymer-modified proteins has attracted growing interest. However, one of the main challenges in this field is the lack of efficient and site-specific methods for installing multiple bioorthogonal functionalities on substrate polymers. We report here an orchestrating strategy that provides easy access to various topological protein-poly(amino acid) (PAA) conjugates in high yields. This method features the in situ installation of two "chemical handles", including a thioester for native chemical ligation and a polyglycine nucleophile for sortase A-mediated ligation, at both ends of substrate PAAs. As a result, neither pre-functionalization of initiator or monomer units, nor post-polymerization modification of the resultant polymers, is necessary. Site-specific topological conjugates, particularly circular conjugates, can be conveniently synthesized under mild conditions from the functionalized PAAs. The biomedical utility of our method is demonstrated by the rapid and efficient generation of several therapeutic interferon-α conjugates, which exhibit significantly enhanced protease resistance and thermostability. Given the versatility of both PAAs and proteins, the method offers a convenient approach to producing libraries of conjugates for biological applications.

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Yingqin Hou

Cryopolymerization of 1,2-Dithiolanes for the Facile and Reversible Grafting-from Synthesis of Protein–Polydisulfide Conjugates

Polysarcosine as an Alternative to PEG for Therapeutic Protein Conjugation

A Concise Approach to Site-Specific Topological Protein–Poly(amino acid) Conjugates Enabled by in Situ-Generated Functionalities

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