| DC67721 |
Macrocyclic Lipid 5
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Lipid 5 is an ionizable lipid based on a macrocyclic cyclam headgroup. Its structure incorporates a benzylmethyl carbonate (BMC) linker, which contains an aromatic benzene ring, and a saturated C18 hydrophobic tail. Lipid 5 was mixed with helper lipids at a fixed molar ratio and formulated into mRNA-loaded lipid nanoparticles (LNPs) using microfluidic technology. Characterization data show that these LNPs have a hydrodynamic diameter of approximately 50-80 nanometers and a polydispersity index (PDI) below 0.2, indicating a small particle size with a uniform distribution. Their zeta potential at physiological pH is near neutral (ranging from -3 to +3 mV). The mRNA encapsulation efficiency, as determined by the Ribogreen assay, exceeds 95%. Cryo-transmission electron microscopy images reveal that the LNPs exhibit a typical spherical bilayer structure. In in vitro experiments, Lipid 5 LNPs mediated a higher level of luciferase protein expression in HEK293FT cells compared to the benchmark lipid DLin-MC3-DMA. In Balb/c mice, intravenous injection of LNPs encapsulating luciferase mRNA resulted in in vivo imaging signals predominantly concentrated in the lungs. Quantitative analysis indicated that the signal intensity in the lungs was over 100 times greater than that in the liver, with more than 95% of the total signal distributed in the lungs. In Ai9 reporter gene mice, two intravenous injections of Lipid 5 LNPs encapsulating Cre mRNA led to quantitative analysis of lung tissue sections showing that approximately 30% of lung cells were positive for tdTomato signal. |
| DC67657 |
Lipid TS41
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TS41 is a trisulfide-derived ionizable lipid engineered for lipid nanoparticles (LNPs) to deliver mRNA therapeutics against multidrug-resistant bacterial pneumonia. Its optimized formulation, TS41S LNP, combines TS41 with helper lipids (e.g., DOPE, cholesterol) at a precise ratio, achieving a hydrodynamic diameter of ~105 nm, low polydispersity, and high mRNA encapsulation efficiency (~84%). This design enables efficient pulmonary delivery via intratracheal administration, with luminescence signals in lungs 4.8-fold higher than clinical benchmarks like SM-102 LNPs, ensuring targeted expression in epithelial cells, macrophages, and neutrophils. Crucially, TS41 LNPs exhibit potent anti-inflammatory properties by scavenging reactive oxygen species (ROS), reducing neutrophil infiltration and proinflammatory cytokines (e.g., IL-6, TNF-α) in infected lungs. In preclinical models, TS41S LNP encoding PB9 peptibody mRNA eradicated pathogens like Staphylococcus aureus and Pseudomonas aeruginosa, improved survival rates to 80%, and minimized tissue damage without systemic toxicity. Its ROS-scavenging capability synergizes with antibacterial effects, offering a promising, translatable platform for combating resistant infections while controlling inflammation. Future enhancements, such as codon optimization or inhalation delivery, could further broaden its therapeutic potential. |
| DC67654 |
ATX-012
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ATX-012 is an ionizable cationic lipid specifically designed for mRNA delivery systems. Its unique chemical structure enables key functions in lipid nanoparticle (LNP) formulations, such as facilitating mRNA encapsulation and enhancing endosomal escape for efficient intracellular delivery. |
| DC67538 |
XH-04
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XH-04 (Lipid#4) is an ionizable lipid engineered for advanced mRNA delivery developed by JiaChen West Lake Biotech. Its core structure features a central benzene ring with asymmetric hydrophobic tails (C9-C10 chains) and pH-responsive tertiary amines that enable efficient mRNA encapsulation and endosomal escape. As detailed in CN113993839A, XH04 outperforms industry benchmarks (e.g., MC3 lipid), boosting protein expression by >10-fold in BHK cells. In PCT/CN2024/121624, JiaChen further demonstrated its utility in lung-targeted LNPs (tLNP/tLCNP). When combined with cationic lipids (e.g., DOTMA at 2:1 molar ratio), XH 04 redirects >80% of mRNA delivery to murine lungs—overcoming liver tropism—while maintaining low toxicity. The lipid’s benzenic core and optimized alkyl chain geometry (patent claims 1-9) are credited for enhanced endosomal disruption and mRNA release kinetics. JiaChen’s innovations position XH-04 as a cornerstone for next-generation mRNA therapeutics. |
| DC60855 |
4A3-SC7
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4A3-SC7 is a proprietary, ionizable lipid component central to the SORT LNP platform developed for targeted organ delivery. It features a unique branched-tail structure designed to enhance mRNA encapsulation and endosomal escape. In the study, it served as the primary ionizable lipid in both Liver SORT LNPs and updated Lung SORT LNPs. For liver targeting, it was formulated at 15.04 mol% alongside helper lipids (DOPE: 23.04%, Cholesterol: 38.72%), PEG-lipid (DMG-PEG2000: 3.2%), and the liver-targeting lipid 4A3-Cit (20 mol%). This specific composition (Total lipid:RNA = 20:1 wt/wt) yielded LNPs with ~74 nm size, low PDI (0.17), and high encapsulation efficiency (87%) for large mRNAs like ABE editors (~5000 nt). Its branched-tail architecture was critical for stabilizing nanoparticles encapsulating large RNAs, overcoming a key limitation of previous formulations. 4A3-SC7-based Liver SORT LNPs enabled >40% base editing in hepatocytes in vivo, achieving durable correction of the disease-causing SERPINA1 mutation in PiZ mice and significantly reducing pathological protein aggregates. In the updated DualSORT system, 4A3-SC7 was also paired with DORI (instead of DOTAP) for improved lung targeting, demonstrating its versatility as a foundational ionizable lipid for multi-organ gene editing therapeutics. |
| DC67525 |
Hopewell Lipid 649
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L649 is a next-generation, lung-targeting ionizable lipid specifically designed for systemic mRNA delivery developed by Hopewell. Belonging to the novel "N-series" lipid class, it features a unique structure with an amine-containing head group and hydrophobic tails incorporating amide bonds. This design enables L649 to form highly stable lipid nanoparticles (LNPs) that exhibit exceptional tropism for the lower respiratory tract (lungs, bronchi, trachea) following intravenous administration. It demonstrates superior efficiency in delivering therapeutic payloads (like mRNA) specifically to key lung cell types, including alveolar epithelial cells (AT1 and AT2) and bronchial cells, while minimizing off-target accumulation in organs like the liver. L649-based LNPs, particularly when formulated with helper lipids like POPE, combine high potency with significantly improved tolerability, allowing for effective dosing in vivo. This makes L649 a promising candidate for developing treatments for various lung diseases such as pulmonary fibrosis, COPD, lung cancer, and infectious diseases like COVID-19. |
| DC60849 |
THOR 76 Crude
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THOR 76 is an ionizable lipid developed for lung-targeted mRNA delivery, synthesized via a high-throughput Ugi four-component reaction (U4CR). It combines spermine (N3, amine core), oleyl aldehyde (A2), oleic acid (C2), and a morpholine-functionalized isonitrile (D3). Remarkably, its crude reaction mixture outperforms purified forms in efficacy, suggesting synergistic impurities or intermediates enhance function. Formulated into lipid nanoparticles (LNPs) with cholesterol, DOPE, and PEG-lipid, THOR 76 LNPs exhibit exceptional lung tropism with secondary spleen affinity after intravenous administration. They efficiently transfect pulmonary endothelial cells, enabling robust gene expression (e.g., Cre recombinase) and significant CRISPR-Cas9-mediated gene editing (1.22% at 0.1 mg/kg dose) in the lungs. With a particle size <150 nm, positive zeta potential, and >90% mRNA encapsulation, THOR 76 achieves targeted delivery while minimizing off-target effects in the liver. Its design overcomes limitations of cationic helper lipids, offering a potent, tolerable platform for treating pulmonary genetic disorders and cancers. |
| DC60838 |
A3T2C7 (CP-LC-1495)
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A3T2C7 (CP-LC-1495) is a biodegradable ionizable lipid featuring three β-propionate linkers and an azetidine polar head, formulated in four-component LNPs. It demonstrates exceptional lung-targeted mRNA delivery with 97.1% selectivity and high protein expression (1.21×10⁸ p/s) in mice. Its slightly positive zeta potential (~3.5 mV) correlates with lung tropism, likely mediated by protein corona enrichment of vitronectin and prothrombin. The β-propionate structure enables pH-sensitive biodegradability for enhanced endosomal escape while maintaining low cytotoxicity (>90% cell viability). This lipid enables organ-specific mRNA delivery without permanently charged additives, outperforming conventional SORT strategies in selectivity and expression efficiency. |
| DC67452 |
Lipid PPz-2R1
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PPz-2R1 is an ionizable cationic lipid engineered for mRNA delivery via lipid nanoparticles (LNPs). These LNPs demonstrate remarkable lung-selective accumulation in mice, showing significantly higher uptake compared to heart, liver, spleen, and kidney tissues. When loaded with PTEN mRNA, PPz-2R1 LNPs effectively restore tumor suppressor function in PTEN-deficient lung cancer cells and inhibit tumor progression in orthotopic models, with enhanced efficacy observed in combination with PD-1 blockade therapy. |
| DC67449 |
Lipid TG4C
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TG4C is an ionizable cationic lipid (pKa 6.71) optimized for mRNA delivery via lipid nanoparticles (LNPs). When formulated into LNPs carrying human EPO mRNA, it significantly elevates serum EPO levels in mice. Furthermore, aerosolized TG4C-based LNPs containing HGF mRNA demonstrate therapeutic potential in pulmonary emphysema models, showing reduced inflammatory cytokines (IL-1β, IL-6, TNF-α) in bronchoalveolar lavage fluid after elastase-induced lung injury. |
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