The Liposome-Based PROTAC Strategy

0
292

Proteolysis Targeting Chimeras (PROTACs) are a novel approach for degrading target proteins. Recently, a new split-and-mix PROTAC (SM-PROTAC) system based on liposome self-assembly, known as LipoSM-PROTAC, was reported in the Journal of the American Chemical Society. The LipoSM-PROTAC system exhibits selective degradation of target proteins, with folate serving as a key ligand. In this study, the researchers used the estrogen receptor protein (ERα) as a model and confirmed the significant degradation of ERα in in vitro experiments using this system.

In recent decades, PROTACs have become an attractive technology in drug development. Candidate drugs like ARV110 and ARV-471 have entered Phase I/II clinical trials, indicating the potential of PROTACs in the treatment of cancer and other diseases. The high selectivity, resistance-overcoming capabilities, and ability to target previously undruggable proteins make PROTACs effective in various diseases, including neurological disorders, inflammatory diseases, and cancer.

Peptide-Based SM-PROTAC

Traditional PROTACs are linear structures that connect target protein ligands and E3 ligands with suitable linkers. However, the linear structure limits the simultaneous binding of multiple target proteins, resulting in lower binding efficiency. To address this, researchers developed a new peptide-based self-assembling PROTAC nanoplatform, split-and-mix PROTAC (SM-PROTAC), which offers features like easy screening, programmable ligand ratios, self-optimizing biomolecular spatial recognition, and multifunctional applications. This platform was applied to various target proteins, including ERα, EGFR, MEK1/2, BRD2/4, CDK4/6, AR, BCR-ABL, and demonstrated significant protein degradation. The platform has potential applications for biomolecule regulation, including the fields of epigenetics, gene editing, and biomolecule modification regulation.

Liposome-Based LipoSM-PROTAC

However, the low drug efficacy of peptide-based SM-PROTACs hindered their further development in the biomedical field. Therefore, there was a pressing need for a more effective PROTAC nanoplatform for biomedical applications. Due to the ease of formulation, self-assembly, and high load-carrying capacity of liposomes, researchers combined SM-PROTAC with liposomes, leading to the development of a split-and-mix nanoself-regulating platform called LipoSM-PROTAC. This platform was characterized and validated for its biological performance.

Initially, researchers modified and synthesized PEG-target protein ligands, PEG-E3 ligand ligands, and PEG-folate structures, successfully preparing liposome nanoparticles with superior performance. These nanoparticles carried multiple ligands, including E3 ligand, target protein ligand, and folate ligands on their surfaces. The binding of folate molecules on the nanoparticle surface to folate receptors on cell surfaces allowed for more efficient cellular uptake of the drug, further increasing drug uptake within cells. Cell penetration experiments using flow cytometry confirmed the cell-selective uptake properties of the LipoSM-PROTAC platform, offering a new solution to mitigate adverse reactions in normal tissues or cells.

Additionally, due to the presence of multiple ligands on the nanoparticle surface, the nanoparticles effectively recruited E3 ubiquitin ligases and target proteins. The proximity-induced effect of ligands on the liposome nanoparticle surface allowed for the recognition and degradation of target proteins by the proteasome.

LipoSM-PROTAC Evaluation

To comprehensively assess the biological performance of the LipoSM-PROTAC platform, researchers used ERα as the target protein and verified its degradation mechanism, degradation activity, and adjustable ratio capabilities. Western blot experiments demonstrated that this new drug development platform, LipoSM-PROTAC, was highly effective. Compared to peptide-based PROTACs, the LipoSM-PROTAC system achieved therapeutic effects at lower concentrations. The platform's folate-selective delivery capability enabled precise targeting of specific cell lines, offering superior biocompatibility and significant clinical translation potential across multiple biomedical applications.

In conclusion, researchers have designed a novel delivery platform, LipoSM-PROTAC, which effectively transfers traditional PROTAC ligands onto liposomes. LipoSM-PROTAC offers advantages such as high drug efficacy, strong targeted delivery capabilities, easy screening, ligand ratio adjustment, and self-optimizing biomolecular features. It can simultaneously recruit multiple target proteins and E3 ubiquitin ligases, significantly reducing the concentration of target proteins. The LipoSM-PROTAC system achieves therapeutic effects at low concentrations and holds great potential for clinical translation. Overall, the liposome-based platform demonstrates high drug efficacy, offering promising applications in PROTAC and other biomolecular regulation fields.

Site içinde arama yapın
Kategoriler
Read More
Other
https://groups.google.com/g/synogutpills/c/O02hsfNK0rE
SynoGut itself is rich with features. Kept to a minimum speakerphone with 7 volume settings, 9...
By Dryivgrq Lee 2021-08-14 06:34:24 0 881
Health
https://techplanet.today/post/phil-mickelson-cbd-gummies-reviews-benefits-ingredients
Phil Mickelson CBD Gummies  People taking the primary approach are willing to keep a...
By Lkijxn Bvgr 2022-04-03 07:50:01 0 721
Networking
Digital Marketing Agency in Patna
The Best Digital Marketing Services In Patna: What You Need To Know Before Making A Choice...
By The Digial Art 2022-12-26 12:01:07 0 727
Health
Asia-Pacific Analytical Laboratory Services Market Industry Size, Growth, Demand, Opportunities and Forecast By 2029
Businesses can gain current as well as upcoming technical and financial details of the Medical...
By SHAM BHAU 2023-08-21 17:16:57 0 500
Health
Infusion Pump Device Market estimates & forecast by application, size, production, industry share, consumption, trends and forecast 2029
Through intravenous, subcutaneous, and arterial routes, infusion pumps are external medical...
By Supriya Maximize 2023-07-27 08:23:36 0 464