65864-60-0Relevant articles and documents
Toward the development of prophylactic and therapeutic human papillomavirus type-16 lipopeptide vaccines
Moyle, Peter M.,Olive, Colleen,Ho, Mei-Fong,Pandey, Manisha,Dyer, Joanne,Suhrbier, Andreas,Fujita, Yoshio,Toth, Istvan
, p. 4721 - 4727 (2007)
Four lipid-core peptide systems were synthesized using stepwise solid-phase peptide synthesis, incorporating a sequence from the human papillomavirus type-16 (HPV-16) E7 protein (E744-62), for the purpose of developing vaccines against HPV-16 associated cervical cancer. D-Mannose was conjugated to the vaccine in order to investigate whether the targeting of dendritic cell mannose receptors would improve vaccine efficacy. The ability of the vaccines to clear or reduce the size of HPV-16 associated tumors was assessed in C57BL/6 (H-2b) mice using the TC-1 HPV-16 tumor model. Overall, significant reductions in the size of TC-1 tumors were observed in the mouse model, with the conjugation of mannose to these vaccines demonstrated to clear or reduce the size of TC-1 tumors to a greater extent than non-mannose-containing vaccines (37 out of 40 versus 21 out of 30 tumors cleared, respectively).
CuAAC mediated synthesis of cyclen cored glycodendrimers of high sugar tethers at low generation
Agrahari, Anand K.,Jaiswal, Manoj K.,Yadav, Mangal S.,Tiwari, Vinod K.
, (2021/07/30)
Glycodendrimers are receiving considerable attention to mimic a number of imperative features of cell surface glycoconjugate and acquired excellent relevance to a wide domain of investigations including medicine, pharmaceutics, catalysis, nanotechnology, carbohydrate-protein interaction, and moreover in drug delivery systems. Toward this end, an expeditious, modular, and regioselective triazole-forming CuAAC click approach along with double stage convergent synthetic method was chosen to develop a variety of novel chlorine-containing cyclen cored glycodendrimers of high sugar tethers at low generation of promising therapeutic potential. We developed a novel chlorine-containing hypercore unit with 12 alkynyl functionality originated from cyclen scaffold which was confirmed by its single crystal X-ray data analysis. Further, the modular CuAAC technique was utilized to produce a variety of novel 12–sugar coated (G0) glycodendrimers 12-15 adorn with β-Glc-, β-Man-, β-Gal-, β-Lac, along with 36-galactose coated (G1) glycodendrimer 18 in good-to-high yield. The structures of the developed glycodendrimer architectures have been well elucidated by extensive spectral analysis including NMR (1H & 13CNMR), HRMS, MALDI-TOF MS, UV–Vis, IR, and SEC (Size Exclusion Chromatogram) data.
Glycoprotein Mimics with Tunable Functionalization through Global Amino Acid Substitution and Copper Click Chemistry
Seifried, Brian M.,Qi, Wenjing,Yang, Yun Jung,Mai, Danielle J.,Puryear, Wendy B.,Runstadler, Jonathan A.,Chen, Guosong,Olsen, Bradley D.
, p. 554 - 566 (2020/03/04)
Glycoproteins and their mimics are challenging to produce because of their large number of polysaccharide side chains that form a densely grafted protein-polysaccharide brush architecture. Herein a new approach to protein bioconjugate synthesis is demonst
