Proteins, urinary

Pharmacokinetics After oral administration approximately 2.4% of a single 1 g oral dose is absorbed. Maximum serum concentrations appear after approximately 1 hour, and are low even after a single 1 g dose. Olsalazine has a very short serum half-life of approximately 0.9 hours and is greater than 99% bound to plasma proteins. Urinary recovery is less than 1%. Total oral olsalazine recovery ranges from 90% to 97%. 

Integral plasma membrane proteins from a human lung cancer cell line (62 prenylated proteins and 45 Ras family proteins) urinary proteins AGP-derived glycoproteins major and minor populated isoforms of antithrombin regulatory lipids in breath condensate ... 

Ingestion of ethyl-Hg-contaminated pork Elevated blood urea, urinary protein, urinary sediment Cinca et al. 1979 ... 

Total protein Urinary neutrophil gelatinase-associated lipocalin (NGAL)... 

In some patients with IgA nephropathy (IgAN), intraglomerular coagulation plays a role in depositing fibrinogen (235,236). IgAN patients treated with urokinase show a marked improvement in urinary protein concentration, semm creatinine, and blood urea nitrogen levels (237). 

The separation of proteins and peptides mixtures is the objective of protein biochemisdy. Albumin (Mr 66 000) concentration in a biological fluid (seaim, urine or cerebrbrospinal fluid) is assayed as markers for a series disease, such as nephritic syndrome or chronic glomuleronephritis. In diabetic patients the progression of microalbuminuria is accompanied by an increase in urinary concentrations of human semm albumen. In normal the excretion of albumin is 20 (tg/ml, in pathology - 20-200 p.g/ml. 

Human exposure to environmental contaminants has been investigated through the analysis of adipose tissue, breast milk, blood and the monitoring of faecal and urinary excretion levels. However, while levels of persistent contaminants in human milk, for example, are extensively monitored, very little is known about foetal exposure to xenobiotics because the concentrations of persistent compounds in blood and trans-placental transmission are less well studied. Also, more information is needed in general about the behaviour of endocrine disruptive compounds (and their metabolites) in vivo, for example the way they bind to blood plasma proteins. 

In sympathetically innervated tissues, such as vas deferens or blood vessels, ATP produces fast responses mediated by P2X receptors followed by a slower component mediated by G protein-coupled a-adrenoceptors (Fig. 2) NPY usually acts as a pre-or postjunctional modulator of the release and/or action of NA and ATP. Similarly, for parasympathetic nerves supplying the urinary bladder, ATP provokes a fast, short-lasting twitch response via P2X receptors, whereas the slower component is mediated by G... 

Schoeninger, M.J. and DeNiro, M.J. 1984 Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochimica et Cosmochimica Acta 48 625-639. Schuette, S. A., Hegsted, M., Zemel, B. and Linkswiler, H.M. 1981 Renal acid, urinary cyclic AMP, and hydroxyproline excretion as affected by level of protein, sulfur amino acids and phosphorus intake. Journal of Nutrition 111 2106-2116. 

Hyperargininemia. This defect is characterized by elevated blood and cerebrospinal fluid arginine levels, low erythrocyte levels of arginase (reaction 5, Figure 29-9), and a urinary amino acid pattern resembling that of lysine-cystinuria. This pattern may reflect competition by arginine with lysine and cystine for reabsorption in the renal tubule. A low-protein diet lowers plasma ammonia levels and abolishes lysine-cystinuria. 

As the name implies, the odor of urine in maple syrup urine disease (brancbed-chain ketonuria) suggests maple symp or burnt sugar. The biochemical defect involves the a-keto acid decarboxylase complex (reaction 2, Figure 30-19). Plasma and urinary levels of leucine, isoleucine, valine, a-keto acids, and a-hydroxy acids (reduced a-keto acids) are elevated. The mechanism of toxicity is unknown. Early diagnosis, especially prior to 1 week of age, employs enzymatic analysis. Prompt replacement of dietary protein by an amino acid mixture that lacks leucine, isoleucine, and valine averts brain damage and early mortality. 

The smdy of tissue protein breakdown in vivo is difficult, because amino acids released during intracellular breakdown of proteins can be extensively reutilized for protein synthesis within the cell, or the amino acids may be transported to other organs where they enter anabohc pathways. However, actin and myosin are methylated by a posttranslational reaction, forming d-methylliistidine. During intracellular breakdown of actin and myosin, 3-methylhistidine is released and excreted into the urine. The urinary output of the methylated amino acid provides a rehable index of the rate of myofibrillar protein breakdown in the musculature of human subjects. 

The primary urinary metabolites of trichloroethylene in humans are trichloroethanol, trichloroethanol glucuronide, and TCA (Monster et al. 1979 Nomiyama and Nomiyama 1971 Sato et al. 1977). The halftime for renal elimination of trichloroethanol and trichloroethanol glucuronide has been determined in several studies to be approximately 10 hours following trichloroethylene exposure (Monster et al. 1979 Sato et al. 1977). The urinary excretion of TCA is much slower, and data from several studies indicate that the halftime of urinary TCA is approximately 52 hours because the metabolite is very tightly and extensively bound to plasma proteins (Monster et al. 1976 Sato et al. 1977). 

The use of the methods for monitoring metabolites of trichloroethylene in blood and urine is, however, rather limited since the levels of TCA in urine have been found to vary widely, even among individuals with equal exposure (Vesterberg and Astrand 1976). Moreover, exposure to other chlorinated hydrocarbons such as tetrachloroethane, tetrachloroethylene, and 1,1,1-trichloroethane would also be reflected in an increase in urinary excretion of TCA. In addition, there may be sex differences regarding the excretion of trichloroethylene metabolites in urine since one experiment shows that men secrete more trichloroethanol than women (Inoue et al. 1989). The use of the level of trichloroethylene adduction to blood proteins as a quantitative measure of exposure is also possible, although obtaining accurate results may be complicated by the fact that several metabolites of trichloroethylene may also form adducts (Stevens et al. 1992). 

---