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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
General procedures are presented for the site-specific pegylation of peptides at the NH2-terminus, side-chain positions (Lys or Asp/Glu) or COOH-terminus using solid-phase Fmoc/tBu methodologies. A model tridecapeptide fragment of
interleukin-2
, IL-2(44-56)-NH2, was chosen for this study since it possesses several trifunctional amino acids which serve as potential sites for pegylation. The pegylation reagents were designed to contain either Nle or Orn, which served as diagnostic amino acids for confirming the presence of 1 PEG unit per
mole
of peptide. NH2-Terminal pegylation was carried out by coupling PEG-CH2CO-Nle-OH to the free NH2-terminus of the peptide-resin. Side-chain pegylation of Lys or Asp was achieved by one of two pathways. Direct side-chain pegylation was accomplished by coupling with Fmoc-Lys(PEG-CH2CO-Nle)-OH or Fmoc-Asp(Nle-NH-CH2CH2-PEG)-OH, followed by solid-phase assemblage of the pegylated peptide-resin and TFA cleavage. Alternatively, allylic protective groups were introduced via Fmoc-Lys(Alloc)-OH or Fmoc-Asp(O-Allyl)-OH, and selectively removed by palladium-catalyzed deprotection after assemblage of the peptide-resin. Solid-phase pegylation of the side-chain of Lys or Asp was then carried out in the final stage with PEG-CH2CO-Nle-OH or H-Nle-NH-(CH2)2-PEG, respectively. COOH-Terminal pegylation was achieved through the initial attachment of Fmoc-Orn(PEG-CH2CO)-OH to the solid support, followed by solid-phase peptide synthesis using the Fmoc/tBu strategy. The pegylated peptides were purified by dialysis and preparative HPLC and were fully characterized by analytical HPLC, amino acid analysis, 1H-NMR spectroscopy and laser desorption mass spectrometry.
...
PMID:Pegylated peptides. II. Solid-phase synthesis of amino-, carboxy- and side-chain pegylated peptides. 820 Jul 30
Exploring a new method for the site-specific incorporation of functional groups into proteins, we have studied the combined use of genetic engineering techniques and enzymatic methods. Specifically, a short peptide for use as a substrate of guinea pig liver transglutaminase (TGase) is introduced at the N terminus of human
interleukin-2
(hIL-2). The expressed chimeric protein (rTG1-IL-2) is chemically modified at a glutamine site in the appended sequence by TGase-catalyzed transamination with two amines, monodansylcadaverine (MDC), or a constructed derivative of poly (oxyethylene) (POE3). For the TGase-catalyzed modifications with MDC and POE3, 1 mol of donor was incorporated per
mole
of rTG1-IL-2, respectively. N-Terminal sequence analysis of MDC-modified rTG1-IL-2 (MDC-rTG1-IL-2) showed that the Gln-4 residue in the chimeric protein was site specifically modified with MDC. On the other hand, tryptic mapping of POE3-modified rTG1-IL-2 (POE3-rTG1-IL-2) by matrix-assisted laser desorption/ ionization time-of-flight mass spectrometry (MALDI-TOFMS) suggested that one of the Gln sites in the appended sequence was modified with POE3. The POE3-rTG1-IL-2 retained full bioactivity relative to the unmodified molecule and rhIL-2. This methodology could be a new and general route for the site-specific modification of proteins.
...
PMID:Site-specific modification of interleukin-2 by the combined use of genetic engineering techniques and transglutaminase. 885 43
A unique immunoliposome has been developed as a drug delivery vehicle for immunotherapy. Human recombinant
interleukin-2
(
IL-2
) has been chemically coupled to the external surface of small unilamellar vesicles (SUVs) containing methotrexate as a candidate immunosuppresive agent in order to specifically direct the drug-bearing liposome to activated T-cells expressing the high affinity IL-2 receptor. This drug delivery system is designed to deliver an immunosuppressive agent to those cells that actively participate in disorders such as graft rejection without delivering an effective but potentially toxic drug to all cells of the immune system as well as other healthy tissues.
IL-2
was chemically modified with succinimidyl 4-[p-maleidophenyl butyrate](SMPB) while the receptor binding domain on
IL-2
was protected by monoclonal anti-
IL-2
bound to Protein A-Silica Gel. The antibody recognizes the receptor binding domain of the
IL-2
molecule. The
IL-2
was derivatized with S-succinimidyl-S-thioacetate (SATA) in order to add an acetyl thioester group to the lipid and create the complex. The derivatized lipid (SATA-PE) was then part of the liposome formulation containing DSPC:cholesterol: SATA-PE at a
mole
ratio of 1.5:1.0:0.26. SMPB-
IL-2
was covalently coupled to the external surface of the SUV after deacetylation of the thioester moiety at pH 7.4 in PBS. Liposomes prepared by sonication or extrusion had an average diameter of 46-50 nm. SUV-
IL-2
bound to the high affinity IL-2 receptor as measured by competitive binding assays and Scatchard analysis using 111InCl2-loaded liposomes The preparation exhibited a binding constant of 30 pM, consistent with values for free
IL-2
cited in the literature. SUV
IL-2
could be used as the sole source of
IL-2
for the murine CTLL-2 T-cell line or for human mitogen-activated PBLs. The presence of
IL-2
coupled to the surface was absolutely required for delivery of the drug to the cell. When methotrexate was encapsulated within the internal aqueous space, receptor-mediated endocytosis led to the inhibition of proliferation due to delivery of MTX to the cytoplasm of the cell. More than 90% of the methotrexate was retained within the liposome during storage over a 24-h period at 4 degrees C. This immunoliposome represents a new class of cell specific immunoliposomes whose entry into the cell is controlled by a cell surface receptor.
...
PMID:The development of IL-2 conjugated liposomes for therapeutic purposes. 954 72
