J. Donald Ostrow scite author profile

Unconjugated bilirubin (UCB), the principal mammalian bile pigment, is the end product of heme catabolism. Both belong to the superfamily of tetrapyrrolic compounds that serve multiple biological functions in animals and plants. Its six internal hydrogen bonds give UCB a unique structure responsible for its physico-chemical properties and biological effects. Like many weakly-polar, poorly-soluble compounds, UCB is transported in blood tightly bound to albumin, with less than 0.01% of total bilirubin circulating in an unbound form (free bilirubin, Bf). This fraction governs the diffusion of UCB into tissues, and therefore Bf is responsible for both its beneficial and toxic effects on cells. Although, UCB was long thought to be a non-functional waste product, recent studies have shown that the antioxidant effects of mildly elevated serum bilirubin levels, as well as activation of heme oxygenase, may protect against diseases associated with oxidative stress, such as atherosclerosis. By contrast, markedly elevated serum UCB levels may cause severe neurological damage, especially in neonates. The regulation of cellular UCB content, by its conjugation, oxidation, and export, are, therefore of paramount importance to cellular health.

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Differential expression of the multidrug resistance‐related proteins ABCb1 and ABCc1 between blood‐brain interfaces

Gazzin

Strazielle

Schmitt

et al. 2008

J of Comparative Neurology

137

130

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Cerebral homeostasis results from the presence of the protective blood-brain and blood-cerebrospinal fluid barriers located respectively at the brain capillary endothelium and the choroid plexus epithelium. ABCb1 (Pgp) and ABCc1 (Mrp1) transporters are two major proteins of neuroprotection whose localization and functional significance at both barriers remain partly unsettled. We conducted a comparative analysis of their relative protein content between the two blood-brain interfaces. Microvessels and choroid plexuses located in the fourth and lateral ventricles were isolated from developing and adult rat brains, and whole homogenates were submitted to quantitative Western blot analysis by using standard curves generated from one of the samples. In adult, choroid plexus-associated Pgp content was less than 0.5% of the level in microvessels, whereas Mrp1 content in microvessels was 4% of that in the fourth ventricle choroid plexus. Pgp but not Mrp1 was enriched in microvessels over parenchyma. In choroid plexuses, Mrp1 displayed a basolateral epithelial localization, and reached its high adult protein level, early during postnatal development. In postnatal as in adult microvessels, Pgp localization appeared luminal. However, by contrast to Mrp1, the level of this transporter increased 4.6-fold between 9-day-old and adult animals. Western blot analysis of human samples confirmed the mirror image of Pgp and Mrp1 expression between the two barriers. We conclude that there are major differences in the mechanisms by which blood-brain interfaces fulfill their neuroprotective functions. The data also highlight the significance of the neuroprotective function of the choroid plexus during brain maturation, when the microvasculature is still developing.

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Unbound (Free) Bilirubin: Improving the Paradigm for Evaluating Neonatal Jaundice

et al. 2009

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Background: The serum or plasma total bilirubin concentration (BT) has long been the standard clinical laboratory test for evaluating neonatal jaundice, despite studies showing that BT correlates poorly with acute bilirubin encephalopathy (ABE) and its sequelae including death, classical kernicterus, or bilirubin-induced neurological dysfunction (BIND). The poor correlation between BT and ABE is commonly attributed to the confounding effects of comorbidities such as hemolytic diseases, prematurity, asphyxia, or infection. Mounting evidence suggests, however, that BT inherently performs poorly because it is the plasma non–protein-bound (unbound or free) bilirubin concentration (Bf), rather than BT, that is more closely associated with central nervous system bilirubin concentrations and therefore ABE and its sequelae. Content: This article reviews (a) the complex relationship between serum or plasma bilirubin measurements and ABE, (b) the history underlying the limited use of Bf in the clinical setting, (c) the peroxidase method for measuring Bf and technical and other issues involved in adapting the measurement to routine clinical use, (d) clinical experience using Bf in the management of newborn jaundice, and (e) the value of Bf measurements in research investigating bilirubin pathochemistry. Summary: Increasing evidence from clinical studies, clinical experience, and basic research investigating bilirubin neurotoxicity supports efforts to incorporate Bf expeditiously into the routine evaluation of newborn jaundice. .

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The Preparation of Crystalline Bilirubin-C14*

Ostrow¹,

Hammaker²,

Schmid³

1961

J. Clin. Invest.

195

112

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J. Donald Ostrow

Bilirubin Chemistry and Metabolism; Harmful and Protective Aspects

Differential expression of the multidrug resistance‐related proteins ABCb1 and ABCc1 between blood‐brain interfaces

Unbound (Free) Bilirubin: Improving the Paradigm for Evaluating Neonatal Jaundice

The Preparation of Crystalline Bilirubin-C14*

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