Bilirubin, the yellow pigment of jaundice, is a linear tetrapyrrole with a methylene group at its
center, C(10), a position of crucial importance to its conformation and metabolism. The presence of the central
methylene group allows the bilirubin to fold into an intramolecularly hydrogen-bonded conformation. This
paper describes the first synthesis of a bilirubin analogue with an oxo group at C(10). The change from CH2
to CO, from sp3 to sp2, is designed to stress the molecule at its hinge and relax its conformation. Such
compounds have been suggested as potential oxidative metabolites of bilirubin in vivo. 10-Oxo-mesobilirubin-XIIIα (1) is a red crystalline solid, unlike its parent, mesobilirubin-XIIIα, which is a bright yellow solid. It is
surprisingly polar, relative to the parent, yet it does not exhibit a significantly larger bicarbonate/chloroform
partition coefficient. Like the parent, 1 appears to adopt an intramolecularly hydrogen-bonded ridge-tile-like
conformation. In normal rats, 1 is metabolized to acylglucuronides, which are secreted into bile, but a portion
of the administered dose is secreted into bile intact. In mutant rats (Gunn rats) lacking bilirubin glucuronyl
transferase, 1 was excreted efficiently in bile in unchanged form, unlike the parent with a methylene group at
C(10). Thus, introduction of the oxygen function at C(10) has little effect on hepatic uptake but a dramatic
effect on canalicular secretion into bile.
A model for one-half bilirubin, the neurotoxic yellow-orange pigment of jaundice, 9-[2-(2-carboxyethyl)benzyl]-2,3,7,8-tetramethyl-1,10-dihydrodipyrrin (1, hemirubin) was synthesized following SnCl(4)-catalyzed Friedel-Crafts acylation at C(9) of 2,3,7,8-1-oxo-1,10-dihydrodipyrrin (7) with methyl o-(chlorocarbonyl)hydrocinnamate. Unlike earlier bilirubin model compounds, hemirubin is predicted and found to engage in intramolecular hydrogen bonding. Like bilirubin, the propionic acid carboxyl group of hemirubin is linked to the opposing dipyrrinone by intramolecular hydrogen bonds, and thus, 1 shares in some of the solution properties of its parent bilirubin, e.g., an acid that is less polar than its methyl ester.
A new route to tetrahydrofurofurane lignans 8 is present, which starts with substituted benzoate following a 7 step syntheses, and is distinctly shorter, more economic and efficient than any of the previous approaches to the target reported in the literature. The key step to establish the first furane ring 2 benefits the remarkable ease of the Diels-Alder reaction of 2,4-diaryloxazole 1 with 2-butyne-l$diol diacetate.
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