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Protein LMWP

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

LMWP can be used as a cell-penetrating peptide (CPP) to achieve efficient intracellular protein or gene delivery in the clinic.

Category
Functional Peptides
Catalog number
BAT-014813
CAS number
121052-30-0
Molecular Formula
C72H142N44O16
Molecular Weight
1880.18
Synonyms
Low Molecular Weight Protamine; H-Val-Ser-Arg-Arg-Arg-Arg-Arg-Arg-Gly-Gly-Arg-Arg-Arg-Arg-OH; L-Arginine, L-valyl-L-seryl-L-arginyl-L-arginyl-L-arginyl-L-arginyl-L-arginyl-L-arginylglycylglycyl-L-arginyl-L-arginyl-L-arginyl-
Appearance
White Powder
Purity
≥95%
Sequence
VSRRRRRRGGRRRR
Storage
Store at -20°C
Solubility
Soluble in Water
1. DARPin Ec1-LMWP protein scaffold in targeted delivery of siRNA molecules through EpCAM cancer stem cell marker
Nikta Babaee, Yeganeh Talebkhan Garoosi, Morteza Karimipoor, Fatemeh Davami, Elham Bayat, Hossein Safarpour, Fereidoun Mahboudi, Farzaneh Barkhordari Mol Biol Rep. 2020 Oct;47(10):7323-7331. doi: 10.1007/s11033-020-05752-5. Epub 2020 Sep 26.
This study is to investigate the binding ability of Designed Ankyrin Repeat Proteins type Ec1that was fused to Low Molecular Weight Protamine (DARPin Ec1-LMWP) protein scaffold to the Epithelial Cell Adhesion Molecule (EpCAM) Cancer Stem Cell (CSC) marker and its efficiency in targeted delivery of small interfering RNA (siRNA) molecules into the studied cells. Gene fragment encoding the DARPIn Ec1-LMWP fusion protein was subcloned into pET28a expression vector following molecular docking studies performed to examine the affinity of the fusion protein towards EpCAM marker. The binding of the siRNA to the expressed fusion protein was tested through native PAGE. The toxicity of the fusion protein was tested by MTT assay. Attachment of the complex to the EpCAM marker was investigated by flow cytometry and delivery of siRNA into the cells was assessed by fluorescence microscopy. The expressed 21.6 kDa DARPin Ec1-LMWP fusion protein was purified and showed no cytotoxicity on tested cells. Arginine rich LMWP was efficiently bounded to the negatively charged siRNA molecule. Successful attachment of the fusion protein:siRNA complex to the EpCAM marker and its internalization into MCF-7 breast cancer cell line were confirmed. Here for the first time the recombinant DARPin Ec1-LMWP protein scaffold was designed and tested for targeting EpCAM surface marker and successful internalization of the siRNA into MCF-7 cells.
2. Blood-Brain-Barrier-Penetrating Albumin Nanoparticles for Biomimetic Drug Delivery via Albumin-Binding Protein Pathways for Antiglioma Therapy
Tingting Lin, Pengfei Zhao, Yifan Jiang, Yisi Tang, Hongyue Jin, Zhenzhen Pan, Huining He, Victor C Yang, Yongzhuo Huang ACS Nano. 2016 Nov 22;10(11):9999-10012. doi: 10.1021/acsnano.6b04268. Epub 2016 Nov 8.
Nutrient transporters have been explored for biomimetic delivery targeting the brain. The albumin-binding proteins (e.g., SPARC and gp60) are overexpressed in many tumors for transport of albumin as an amino acid and an energy source for fast-growing cancer cells. However, their application in brain delivery has rarely been investigated. In this work, SPARC and gp60 overexpression was found on glioma and tumor vessel endothelium; therefore, such pathways were explored for use in brain-targeting biomimetic delivery. We developed a green method for blood-brain barrier (BBB)-penetrating albumin nanoparticle synthesis, with the capacity to coencapsulate different drugs and no need for cross-linkers. The hydrophobic drugs (i.e., paclitaxel and fenretinide) yield synergistic effects to induce albumin self-assembly, forming dual drug-loaded nanoparticles. The albumin nanoparticles can penetrate the BBB and target glioma cells via the mechanisms of SPARC- and gp60-mediated biomimetic transport. Importantly, by modification with the cell-penetrating peptide LMWP, the albumin nanoparticles display enhanced BBB penetration, intratumoral infiltration, and cellular uptake. The LMWP-modified nanoparticles exhibited improved treatment outcomes in both subcutaneous and intracranial glioma models, with reduced toxic side effects. The therapeutic mechanisms were associated with induction of apoptosis, antiangiogenesis, and tumor immune microenvironment regulation. It provides a facile method for dual drug-loaded albumin nanoparticle preparation and a promising avenue for biomimetic delivery targeting the brain tumor based on combination therapy.
3. Oral delivery of proteins and peptides: Challenges, status quo and future perspectives
Quangang Zhu, Zhongjian Chen, Pijush Kumar Paul, Yi Lu, Wei Wu, Jianping Qi Acta Pharm Sin B. 2021 Aug;11(8):2416-2448. doi: 10.1016/j.apsb.2021.04.001. Epub 2021 Apr 29.
Proteins and peptides (PPs) have gradually become more attractive therapeutic molecules than small molecular drugs due to their high selectivity and efficacy, but fewer side effects. Owing to the poor stability and limited permeability through gastrointestinal (GI) tract and epithelia, the therapeutic PPs are usually administered by parenteral route. Given the big demand for oral administration in clinical use, a variety of researches focused on developing new technologies to overcome GI barriers of PPs, such as enteric coating, enzyme inhibitors, permeation enhancers, nanoparticles, as well as intestinal microdevices. Some new technologies have been developed under clinical trials and even on the market. This review summarizes the history, the physiological barriers and the overcoming approaches, current clinical and preclinical technologies, and future prospects of oral delivery of PPs.
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