Excretion by terrestrial animals

Excretory processes for xenobiotics are best understood for mammals, with far less work having been done on birds, reptiles, and amphibians. Highly lipophilic compounds show little tendency to be excreted unchanged. In the absence of effective metabolism, they tend to have very long biological half-lives in depot fat. Thus, half-lives of about 1 year have been reported for p,p -DDE in birds, whereas higher 

FIGURE 2.16 Excretion routes of xenobiotic anionic conjugates. 

Organic Pollutants An Ecotoxicological Perspective, Second Edition 

Enterohepatic circulation can lead to toxic effects. For example, the drug chloramphenicol is metabolized to a conjugate that is excreted in bile by the rat. Once in the gut, the conjugate is broken down to release a phase 1 metabolite that undergoes further metabolism to yield toxic products. When these are reabsorbed, they can cause toxicity. The rabbit, by contrast, excretes chloramphenicol conjugates in urine, and there are no toxic effects at the dose rates in question. 

Excretion via the kidney can be a straightforward question of glomerular filtration, followed by passage down the kidney tubules into the bladder. However, there can also be excretion and reabsorption across the tubular wall. This may happen if an ionized form within the tubule is converted into its nonpolar nonionized form because of a change in pH. The nonionized form can then diffuse across the tubular wall into plasma. Additionally, there are active transport systems for the excretion of lipophilic acids and bases across the wall of the proximal tubule. The antibiotic penicillin can be excreted in this way. 

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