| DC59010 |
C14-4 (C14-494,Lipid B-4,Lipid B4)
|
C14-4 (C14-494,Lipid B-4,Lipid B4) is a novel ionizable lipid with the highest T-cell transfection efficiency and low cytotoxicity.The C14-4 ionizable lipid has been explored for CAR-T therapy.To screen the excellent formulations for mRNA delivery, a
lipid library of 24 ionizable lipids was constructed to make
iLNPs, which were used to deliver luciferase mRNA into
Jurkat cells.[115] The optimal iLNPs formulation was C14-4
iLNPs (C14-4 ionizable lipid, DOPE, chol, and PEG at a molar
ratio of 35%, 16%, 46.5%, and 2.5%) (Figure 6c). The optimal
dose of luciferase mRNA for C14-4 iLNPs was 30 ng.
Compared with electroporated CAR T cells, the CAR T cells engineered
via C14-4 iLNPs showed potent cancer-killing activity
when they were cocultured with Nalm-6 acute lymphoblastic leukemia
cells. To obtain a safer and more effective CAR mRNA
delivery vehicle, the orthogonal design provided 256 potential
formulations, and 16 representative iLNPs formulations were
evaluated.Through evaluating the safety, delivery efficiency,
and transfection efficiency of 16 iLNPs, the formulation B10
(C14-4 ionizable lipid, DOPE, chol, PEG at a molar ratio of
40%, 30%, 25%, and 2.5%) was screened out as the optimal performing formulation. The luciferase expression based on B10
formulation was increased threefold than the initial formulation.
Reducing the accumulation and clearance of iLNPs in the liver
can increase the expression of CAR mRNA in T cells, further
improving the therapeutic effect of CAR-T. Studies have shown
that cholesterol analogs can alter the mechanisms of intracellular
circulation and enhance the delivery of mRNA, which may be
related to the reduced recognition of iLNPs by the Niemann
Pick C1 (NPC1) enzyme.The addition of a hydroxyl
group to various locations in the cholesterol molecule can alter
the binding kinetics between the modified cholesterol and NPC1,
and reduced NPC1 recognition of cholesterol. The results
showed that replacement of 25% and 50% 7 α-hydroxycholesterol
for cholesterol in iLNPs improved mRNA delivery to
primary human T cells in vitro by 1.8-fold and twofold,
respectively.C14-4 is one of the ionizable lipids to efficiently deliver mRNA
to Jurkat cells or primary human T cells. It will effectively promote
the development of mRNA delivery by iLNPs for CAR-T
therapy. |
| DC67602 |
ILB-3132(E12LA6B603)
|
E12LA6B603(ILB3132,ILB-3132) is a novel ionizable amino lipid disclosed in patent WO2024198497A1, developed by MagicRNA, representing a highly efficient component for lipid nanoparticle (LNP) delivery systems.When formulated into LNPs, E12LA6B603 LNP achieves a remarkable 98.26% encapsulation efficiency for mRNA. It mediates superior in vitro transfection in dendritic cells (1.8E+05 intensity) and demonstrates best-in-class in vivo protein expression after intramuscular injection (2.2E+09 intensity). Most notably, in a B16-OVA melanoma model, therapeutic OVA-mRNA vaccines delivered by E12LA6B603 LNPs induced 100% complete tumor regression, highlighting its superior efficacy over benchmarks like DLin-MC3 and SM-102. Its biodegradable ester linkages and balanced structure make it a promising, potent candidate for next-generation mRNA vaccines and therapeutics. |
| DC67601 |
Sanofi Lipid 15
|
Sanofi Lipid 15 is a highly efficient ionizable cationic lipid for T-cell transfection. Its unique structure enables superior mRNA delivery to T cells, with key features including: 1) pH-responsive ionization (pKa ~6.5-7.2) for optimal endosomal escape, 2) biodegradable ester linkages for reduced toxicity, and 3) optimized hydrophobic tails for membrane fusion. When formulated in LNPs with CD3/CD8-targeting antibodies, Lipid 15 achieves >50% transfection efficiency in primary human T cells, with 2-3× higher GFP expression than DLin-KC3-DMA controls. The LNPs maintain stable particle size (~100nm) after freeze-thaw cycles and show minimal off-target effects (<5% non-T cell transfection). This performance makes Lipid 15 ideal for CAR-T and TCR engineering applications. |
| DC67568 |
ORNA Lipid AX-6
|
AX6 is an ionizable lipid in the F32 LNP formulation, engineered by ReNAgade/Orna Therapeutics for targeted mRNA delivery to T cells. AX-6's unique bridged bicyclic/polycyclic core with a tertiary amine group enables pH-dependent protonation and endosomal escape, while C14-C18 hydrophobic tails (optionally branched/fluorinated) enhance bilayer stability and mRNA encapsulation. Demonstrating exceptional T-cell tropism, AX6 achieves high transfection efficiency in CD4+/CD8+ T cells (validated in NHP/humanized models) with minimal toxicity. Compared to clinical benchmarks (SM-102, ALC-0315), its rigid core offers superior serum stability and immune-cell specificity, positioning it as an ideal candidate for CAR-T/NK therapies and next-gen vaccines. The F32 LNP system's proven efficacy (e.g., in vivo B-cell depletion) underscores AX 6's transformative potential for cell engineering and immunotherapies. |
| DC67565 |
IAJD249
|
IAJD 294 is a single-component ionizable amphiphilic Janus dendrimer that autonomously coassembles with mRNA via simple injection into uniform monodisperse dendrimersome nanoparticles (DNPs, 85 nm diameter, PDI<0.2), eliminating complex multi-component formulations. Its optimized 3,5-benzoyl ester linkage and symmetric hydrophobic tails enable dual-organ targeting:
Spleen: 2.97 × 10⁷ RLU (50% of total activity)
Lymph nodes: 10⁶ RLU (10× higher than IAJD 87)
through partial hydrophobic interdigitation (stabilizing DNPs for enhanced lymphatic uptake) and pKa ~6.5 (facilitating endosomal escape), validating constitutional isomerism for precision delivery. |
| DC67556 |
Sail Lipid 2308
|
Sail Lipid 2308 is a novel ionizable lipid targeting to spleen developed by Sai Biomedicine.As described on US20250205167A1, Lipid 2308 was designed with a piperidine core (6-membered ring) and asymmetric C17/C11 chains, this lipid achieves unprecedented spleen-specificity. It demonstrates dominant spleen accumulation (Spleen RLU: 7.8E+06, 91.8% of total signal) with a record spleen-to-liver ratio of 112.7 (9× higher than 2231). Despite lower protein expression (hEPO: 11,000 ng/mL), near-zero liver uptake (Liver RLU: 66,000) makes Lipid 2308 unparalleled for vaccine/immunotherapy applications targeting splenic immune cells. |
| DC67555 |
Sail Lipid 2231
|
Sail Lipid 2231 is a novel ionizable lipid targeting to spleen developed by Sai Biomedicine.As described on US20250205167A1 Lipid 2231 features a pyrrolidine core (5-membered ring) with biodegradable ester linkages and asymmetric C17/C11 hydrophobic chains. In vivo data shows moderate spleen targeting (Spleen RLU: 3.8E+06) with a spleen-to-liver ratio of 12.767. |
| DC67553 |
Lipid PL40
|
PL-40 is a cardiolipin-mimetic ionizable lipid engineered for high-efficiency, antibody-free mRNA delivery to T cells. PL 40 LNPs exhibit a mean particle size of 120 nm, zeta potential of -5.19 mV, and >80% mRNA encapsulation efficiency, with excellent plasma stability (≤5% size change after 6h in serum). Cryo-TEM reveals polyhedral nanoparticles with phase-separated domains, while SAXS confirms tight mRNA packing (d-spacing: ~3 nm vs. 6.64 nm in conventional LNPs). AFM demonstrates exceptional rigidity (high bending modulus), enabling T cell-selective uptake via actin-mediated endocytosis (>2× higher than ALC0315 LNPs).In primary human T cells, PL40 LNPs achieve >90% transfection at 0.5 μg mRNA dose and sustain >100× higher luciferase expression than benchmark lipids. When delivering circular RNA, they extend protein expression >5 days with superior spleen tropism (spleen:liver ratio = 2.63). Crucially, they reprogram T cells into functional CAR-Ts in vivo without antibody conjugation, evading exhaustion markers (no Tim-3/PD-1 upregulation). Therapeutically, PL40-based uPAR-targeted CAR mRNA reduces liver fibrosis (collagen↓50%, ALT↓50%) and rheumatoid arthritis severity (clinical scores↓60%) by clearing senescent cells. Humanized anti-uPAR CARs delivered via PL40 show near-complete cytotoxicity (>95%) against uPAR+ cells, underscoring clinical translatability. |
| DC67549 |
ORNA lipid 144(1-C)
|
ORNA lipid 144 is a novel ionizable lipid engineered for splenic RNA delivery developed by ORNA Therapeutics, featuring a biodegradable structure with a protonatable tertiary amine headgroup and ester-linked branched C14 alkyl chains. This design enables exceptional spleen-targeting capability, demonstrated by 3-fold higher luciferase expression in the spleen compared to benchmark lipids and near-complete B-cell depletion when delivering anti-CD19 CAR circRNA. It forms highly stable lipid nanoparticles maintaining homogeneous size (60–80 nm) and low polydispersity across diverse manufacturing conditions and buffer systems. Rapid clearance from the liver and spleen minimizes off-target accumulation, while high circRNA encapsulation efficiency (>90%) and pH-dependent endosomal escape make it ideal for immunotherapies and vaccines requiring precise splenic bioavailability and sustained efficacy. |
| DC67544 |
HCQ Lipid 4(HCQ-4)
|
HCQ-4 is a rationally engineered ionizable lipid derived from hydroxychloroquine (HCQ), featuring a ditetradecylamine-derived twin-C14 saturated hydrocarbon tail linked to the HCQ headgroup via a succinic acid spacer. Synthesized through a three-step route involving HCQ deprotonation, ditetradecylamine carboxylation, and EDC/DMAP-mediated amidation, this lipid forms the core of optimized lipid nanoparticles (LNPs) at a molar ratio of 60:10:40:0.5 (HCQ-4:DOPE:cholesterol:DMG PEG2000). The structure enables dual functionality: (1) Spleen-selective mRNA delivery (2.3-fold higher splenic vs. hepatic transfection) via 80-100 nm particle size, near-neutral charge (-3 mV), and low PEG density, facilitating immune cell uptake; (2) Tumor microenvironment modulation through HCQ-mediated repolarization of M2 macrophages to antitumor M1 phenotype (iNOS+ cells ↑2.5-fold, CD206+ cells ↓60%). This bifunctional design synergistically enhances mRNA cancer vaccine efficacy, demonstrating superior prophylactic/therapeutic antitumor activity and antimetastatic effects compared to clinical benchmarks like MC-3 LNP. |
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