The back cover picture shows two views at 150 degree rotation of vitamin B12 conjugated to the potent anti- hyperglycemia peptide glucagon-like peptide-1 (GLP-1). The conjugate displays similar receptor binding and agonism to unconjugated GLP-1, including insulin potentiation from human transplant pancreatic islet cells, which bodes well for oral delivery of GLP-1 through the B12 dietary pathway. For more details, see the Communication by Robert P. Doyle et al. on p. 582 ff.
From the free press department… The cover for the April, 2013 issue of ChemMEDChem (just the cover art this time, no theoretical content in the associated article. All the theory's figured out!). I'm still awaiting the journal's posting of the article content but wanted to get something up in March. For related content, see the discussion on the "MedChemComm September 2012 Front Cover Image For The 'Examining The Effects Of Vitamin B12 Conjugation…' Paper" post or any of the B12-related posts on this site (www.somewhereville.com/index.php?s=b12). This work is similar in scope to the B12-insulin bioconjugate work in the previous studies, but now includes a different peptide (glucagon-like peptide-1) with similar properties.
Blogging a blog post recently blogged here in a post, with a zoom-in below because no decent-sized version of the same can be found on the MedChemComm site, all pertaining to the "Examining the effects of vitamin B12 conjugation on the biological activity of insulin: a molecular dynamic and in vivo oral uptake investigation" article from Susan Clardy-James, myself, Timothy J. Fairchild and Robert P. Doyle in ChemMedComm (available at pubs.rsc.org/en/Content/ArticleLanding/2012/MD/C2MD20040F).
The MedChemComm post also provides the caption for the cover (below), which I reproduce below for context:
Oral delivery of drugs aims to open up new areas of peptide/protein therapeutics associated with the removal for a need for injections. The major problems facing oral delivery of peptides/proteins is hydrolysis/proteolysis in the gastrointestinal tract and an inefficient uptake mechanism for peptides/proteins from the tract. Robert P. Doyle et al. are interested in the use of the vitamin B12 dietary uptake pathway to address these hurdles. In this paper Doyle et al. report the synthesis, purification and characterisation of a new B12-insulin conjugate attached between the B12 ribose hydroxyl group and insulin PheB1.