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The recovery of renal function in renal transplant recipients is accompanied by an enhanced ability to synthesize dopamine (DA), which may contribute to maintain sodium homeostasis. Patients suffering from chronic renal parenchymal disease, a well-recognized form of salt sensitive (SS) hypertension, have a reduced ability to produce DA that correlates well with deterioration of renal function. In patients afflicted with IgA nephropathy, but normal renal function, urinary excretion of DA correlated positively with BP responses to changes from 200 to 20 mmol/day salt intake. In black salt resistant (SR) normotensives (NT) and SR hypertensives, under low salt intake (40 mmol/day), but not SS-NT and SS-HT, the saline infusion induced increments of DA and DOPAC urinary excretion correlated significantly with increments of sodium urinary excretion and sodium fractional excretion. Patients afflicted with heart failure (HF) have a reduced delivery of L-DOPA to the kidney, accompanied by an increase in DA/L-DOPA urinary ratios. This suggests that HF patients have an increased ability to take up or decarboxylate L-DOPA. Sodium restriction resulted in a significant decrease in urinary L-DOPA, DA and DOPAC in HF patients, suggesting that the system responds to sodium. It is concluded that activity of renal dopaminergic system may be altered in SS subjects, despite the level of their BP, and an enhanced delivery of L-DOPA to the kidney may be beneficial in edema formation states.
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PMID:Renal dopaminergic mechanisms in renal parenchymal diseases, hypertension, and heart failure. 1080 31

The kidney regulates sodium metabolism with extraordinary precision and sensitivity. This is accomplished by an intricate interaction between signals from extrarenal and intrarenal sources and between anti-natriuretic and natriuretic factors. Dopamine, produced in renal proximal tubule cells, plays a central role in this interactive network. Natriuretic hormones that are released from extrarenal sources, such as atrial natriuretic peptide, mediate some of their effects via renal dopamine receptors. On the level of the tubules, dopamine acts by opposing the effects of anti-natriuretic factors, such as angiotensin II and alpha-adrenergic receptors. Sodium retention leads to an increase in renal dopamine tonus, and the natriuretic effects of dopamine are more prominent under this condition. Inhibition or down-regulation of dopamine receptors significantly attenuates the natriuretic response to salt loading. Renal dopamine is modulated by the supply of filtered L-DOPA and the metabolism of dopamine via catechol-O-methyldopamine. The importance of dopamine as a natriuretic hormone is reflected by its capacity to inhibit the majority of renal tubule sodium transporters. Notably, the activity of Na+, K+ ATPase is inhibited in most tubule segments by dopamine. Recent studies have elucidated many of the signaling pathways for renal dopamine receptors. Novel principles for homologous and heterologous sensitization of dopamine receptors have been detected that may explain some of the interaction between dopamine and other first messengers that modulate renal tubule sodium transport. A broad understanding of the renal dopamine system has become increasingly important, since there is now strong evidence from both clinical and experimental studies that dysregulation of the renal dopamine system plays a role in many forms of multigenetic hypertension.
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PMID:Intrarenal dopamine: a key signal in the interactive regulation of sodium metabolism. 1084 5

The present pharmacoepidemiologic study was performed to characterize the profile of adverse drug reactions (ADRs) reported with selegiline, a monoamine oxidase B (MAO-B) inhibitor used in the treatment of Parkinson's disease and previously reported to induce an excess of mortality. The analysis was performed with use of the French Pharmacovigilance Database between 1989 and 1997. This database includes all ADRs reported by French practitioners (and especially "serious" and "unexpected" ADRs). Three different analyses were performed: identification of ADRs reported with selegiline, comparison with the ADR profile observed with other antiparkinsonian drugs, and a case/non-case study investigating the occurrence of cardiovascular ADRs with selegiline in comparison with other drugs in general and other antiparkinsonian drugs (e.g., levodopa [L-Dopa], dopamine agonists) in particular. The most often reported ADRs with selegiline were psychiatric (delirium, hallucinations, agitations), cardiovascular (orthostatic hypotension, arterial hypertension, etc.) and neurologic (sedation, abnormal movements, etc.). Psychiatric and cardiovascular ADRs were more frequently reported with selegiline than with L-Dopa or dopamine agonists. The case/ non-case study found an increased risk of cardiovascular ADRs (OR = 1.72; 95% Cl = 1.16-2.55)when selegiline was associated with L-Dopa. These data show that the profile of selegiline-induced ADRs differs from that of other antiparkinsonian drugs (L-Dopa, dopamine agonists) with more psychiatric and cardiovascular ADRs. We suggest that the higher frequency of cardiovascular ADRs could explain, at least partially, the previously reported increase in mortality rate.
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PMID:Adverse drug reactions to selegiline: a review of the French pharmacovigilance database. 1115 95

Rats were exposed for ten months to 60 ppm of lead (Pb, as acetate) in drinking water to further assess cardiovascular effects of chronic Pb exposure. At the end of the treatment, mean blood Pb was 3.1+/-0.3 microg/dL in the control rats and 22.8+/-1.2 microg/dL in the Pb-exposed rats (means+/-SE, n=12 in each group); these values were not comparable to those of humans. Pb greatly increased plasma levels of noradrenaline (NA) and adrenaline (A), but not those of L-DOPA and dopamine; monoaminoxidase activity was augmented by Pb, mostly in the aorta and in the liver; the aorta, liver, heart and kidney showed discrete histopathological alterations in the Pb-exposed rats, in which plasma levels of nitric oxide (NO, determined as L-citrulline) were reduced. Pb was able to induce blood hypertension, resulting from increase of cardiac inotropism and, mostly, total peripheral resistance. These data were discussed also in relation to those obtained in our previous studies carried out in rats exposed to Pb in drinking water (15-60 ppm) for periods ranging from five to eighteen months. Pb appeared to increase both sympathetic nerve activity by central mechanisms (thus increasing plasma NA and A) and cyclic adenosine monophosphate (cAMP)-dependent availability of calcium ions (Ca++) for contractile mechanisms in the vascular and cardiac myocells (also through an increased vascular alpha2- and myocardial beta1-adrenoreceptor reactivity). The reduction of plasma NO, contributing to increase vascular resistance and cardiac inotropism, was explained as a result of actions of Pb on enzyme activities concerned with the kallikrein-kinin (KK) and renin-angiotensin-aldosterone (RAA) systems. It was concluded that chronic Pb exposure is able to affect selective neuroendocrine (i.e., catecholamine), au- tacoidal (i.e., KK and RAA) and transductional pathways (i.e., cAMP, NO, Ca++) involved in the cardiovascular function.
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PMID:Catcholamine and nitric oxide systems as targets of chronic lead exposure in inducing selective functional impairment. 1120 90

The present report addresses the status of the renal dopaminergic system activity in patients afflicted with different renal disorders and in the remnant kidney of uninephrectomized (UNX) rats, based on the urinary excretion of L-DOPA, dopamine and amine metabolites. In renal transplant recipients with good recovery of graft function (group 1, n=11), the daily urinary excretion of DOPAC, but not that of HVA, was found to increase progressively throughout the first 12 days post-transplantation from 698+/-57 nmol in the first day to 3498+/-414 nmol on day 9, and then remained constant until day 12. This resulted in a 6-fold increase in the urinary DOPAC/dopamine ratios. In renal transplant recipients with acute tubular necrosis (group 2, n=8), the urinary levels of dopamine, DOPAC and HVA were approximately 30% of those in group 1. In a group of 28 patients with chronic renal parenchymal disorders, the daily urinary excretion of L-DOPA, free dopamine and dopamine metabolites (DOPAC and HVA) correlated positively with the degree of deterioration of renal function (P<0.01). However, the U(Dopamine/(L)-DOPA) and U(DOPAC/Dopamine) ratios in patients with chronic renal insufficiency were found to be similar to those observed in patients with normal renal function. In 14 IgA nephropathy (IgA-N) patients with near normal renal function, the changes in 24 h mean blood pressure when going from 20 to 350 mmol/day sodium intake correlated negatively with the daily urinary excretion of dopamine (r(2)=0.597, P<0.01). The urinary excretion of L-DOPA and dopamine in IgA-N patients with salt-sensitive (SS) blood pressure was lower than in salt-resistant (SR) patients (P<0.05), irrespective of their daily sodium intake. However, the rise in urinary dopamine output during salt loading (from 20 to 350 mmol/day) was greater (P<0.05) in IgA-N SS patients (21.2+/-2.5% increase) than in SR patients (6.3+/-1.4% increase). Fifteen days after the surgery, uninephrectomy (UNX) in the rat was accompanied by an enhanced (P<0.05) urinary excretion of dopamine (36+/-3 vs 26+/-2), DOPAC (124+/-11 vs 69+/-6) and HVA (611+/-42 vs 354+/-7) (nmol/g kidney/kg body weight). This was accompanied by an increase in V(max) values for renal aromatic L-amino acid decarboxylase in the remnant kidney of UNX rats (P<0.05). Sch 23390, a D1 dopamine receptor antagonist, produced a marked reduction in the urinary excretion of sodium in UNX rats, whereas in sham-operated rats the decrease in urinary sodium did not attain a significant difference. It is concluded that the study of the renal dopaminergic system in patients afflicted with renal parenchymal disorders should address parameters other than free urinary dopamine, namely the urinary excretion of L-DOPA and dopamine metabolites (DOPAC and HVA). It is also suggested that in SS hypertension of chronic renal parenchymal diseases, renal dopamine produced in the residual tubular units may be enhanced during a sodium challenge, thus behaving appropriately as a compensatory natriuretic hormone.
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PMID:Renal dopaminergic mechanisms in renal parenchymal diseases and hypertension. 1136 22

We have earlier shown that the renal dopaminergic system failed to respond to high salt (HS) intake in old (24-month-old) Fisher 344 rats (Hypertension 1999;34:666-672). In the present study, intestinal Na+,K+-ATPase activity and intestinal dopaminergic tonus were evaluated in adult and old Fischer 344 rats during normal salt (NS) and HS intake. Basal intestinal Na+,K+-ATPase activity (nmol Pi/mg protein/min) in adult rats (142+/-6) was higher than in old Fischer 344 rats (105+/-7). HS intake reduced intestinal Na+,K+-ATPase activity by 20% (P<0.05) in adult, but not in old rats. Dopamine (1 microM) failed to inhibit intestinal Na+,K+-ATPase activity in both adult and old Fischer 344 rats (NS and HS diets). In adult animals, co-incubation of pertussis toxin with dopamine (1 microM) produced a significant inhibitory effect in the intestinal Na+,K+-ATPase activity. L-DOPA and dopamine tissue levels in the intestinal mucosa of adult rats were higher (45+/-9 and 38+/-4 pmol/g) than those in old rats (27+/-9 and 14+/-1 pmol/g). HS diet did not change L-DOPA and DA levels in both adult and old rats. DA/L-DOPA tissue ratios, an indirect measure of dopamine synthesis, were higher in old (1.1+/-0.2) than in adult rats (0.6+/-0.1). Aromatic L-amino acid decarboxylase (AADC) activity in the intestinal mucosa of old rats was higher than in adult rats. HS diet increased the AADC activity in adult rats, but not in old rats. It is concluded that intestinal dopaminergic tonus in old Fisher 344 rats is higher than in adult rats and is accompanied by lower basal intestinal Na+,K+-ATPase activity. In old rats, HS diet failed to alter the intestinal dopaminergic tonus or Na+,K+-ATPase activity, whereas in adult rats increases in AADC activity were accompanied by decreases in Na+,K+-ATPase activity. The association between salt intake, increased dopamine formation and inhibition of Na+,K+-ATPase at the intestinal level was not as straightforward as that described in renal tissues.
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PMID:Salt intake and intestinal dopaminergic activity in adult and old Fischer 344 rats. 1158 11

DOPA decarboxylase (DDC) is responsible for the synthesis of the key neurotransmitters dopamine and serotonin via decarboxylation of L-3,4-dihydroxyphenylalanine (L-DOPA) and L-5-hydroxytryptophan, respectively. DDC has been implicated in a number of clinic disorders, including Parkinson's disease and hypertension. Peripheral inhibitors of DDC are currently used to treat these diseases. We present the crystal structures of ligand-free DDC and its complex with the anti-Parkinson drug carbiDOPA. The inhibitor is bound to the enzyme by forming a hydrazone linkage with the cofactor, and its catechol ring is deeply buried in the active site cleft. The structures provide the molecular basis for the development of new inhibitors of DDC with better pharmacological characteristics.
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PMID:Structural insight into Parkinson's disease treatment from drug-inhibited DOPA decarboxylase. 1168 43

Obesity is often associated with cardiovascular and metabolic disorders such as hypertension and hyperglycemia. Leptin, a protein product of the obese gene, regulates satiety and energy expenditure through its receptors in the hypothalamus. Recent studies have shown that leptin has extrahypothalamic and peripheral actions. The presence of leptin receptors has been reported in the adrenal medulla. In the present study, we examined the effects of leptin on catecholamine synthesis in cultured bovine adrenal medullary cells. Leptin (3-30 nM) caused a significant increase in (14)C-catecholamine synthesis from [(14)C] tyrosine, but not from [(14)C] DOPA. Incubation of cells with leptin resulted in an activation and phosphorylation of tyrosine hydroxylase. Leptin caused a transient activation of mitogen-activated protein kinases (MAPKs). U0126, an inhibitor of MAPK kinase, abolished the effect of leptin on (14)C-catecholamine synthesis. High concentrations of leptin (10-100 nM) produced an increase in intracellular Ca(2+) concentration, which was blocked by Cd(2+), an inhibitor of voltage-dependent Ca(2+) channels. Concurrent treatment of cells with leptin (10 nM) and acetylcholine (0.3 mM) potently enhanced the stimulatory effect of acetylcholine on (14)C-catecholamine synthesis. Leptin, however, failed to enhance the stimulatory effect of acetylcholine on the phosphorylation and activity of tyrosine hydroxylase. Acetylcholine (0.3 mM) decreased the intracellular pH (pHi). Leptin (10 nM) affected neither the basal pHi nor the acetylcholine-induced fall in pHi. These findings suggest that leptin phosphorylates and activates tyrosine hydroxylase and subsequently stimulates catecholamine synthesis through MAPK and probably Ca(2+) pathways in the adrenal medulla.
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PMID:Regulation of catecholamine synthesis by leptin. 1243 73

a-Methyldopa sesquihydrate is used in the treatment of hypertension; over 20 million prescriptions are written annually for a -methyldopa or a-methyldopa sesquihydrate in the United States. a-Methyldopa sesquihydrate (USP grade, greater than 99% pure) was selected for study because of widespread human exposure and the lack of carcinogenicity studies on this compound. Fourteen-day, 13-week, and 2-year studies were conducted in F344/N rats and B6C3F1 mice. The chemical was administered in feed because human exposure is primarily by the oral route. Short-term studies were performed in bacteria and mammalian cells to evaluate the potential for genetic damage. Fourteen-Day and Thirteen-Week Studies: In the 14-day studies, the chemical was administered at dietary concentrations of 0 and 6,250-100,000 ppm. All rats receiving 100,000 ppm and 2/5 female rats receiving 50,000 ppm died. All mice lived until the end of the studies. Final mean body weights of dosed male rats were 14%-43% lower than that of controls, and those of dosed female rats were 9%-24% lower. Feed consumption by dosed male and female rats was reduced. Final mean body weights of dosed mice were generally within 10% of those of controls; feed consumption by dosed groups was lower than that by controls during the first week of the studies. In the 13-week studies, the chemical was administered at dietary concentrations of 0 and 3,100-50,000 ppm. Deaths occurred in 4/10 male rats, 7/10 female rats, and 2/10 female mice at 50,000 ppm and in 1/10 female rats at 25,000 ppm. Final mean body weights of dosed rats were 6%-46% lower than those of controls. Feed consumption by dosed rat groups was lower than that by controls. Final mean body weights of male mice at 25,000 and 50,000 ppm and female mice at 50,000 ppm were reduced 12%-19%. Feed consumption by dosed and control mice was comparable. Rats and mice receiving 25,000 and 50,000 ppm exhibited clinical signs of toxicity including lethargy, hyperexcitability, ocular discharge, and rough hair coats. Clinical signs of toxicity were judged to be more severe in dosed male mice than in female mice. Minimal to moderate kidney tubular cell regeneration was seen in male and female rats at 12,500, 25,000, and 50,000 ppm. Bone marrow hypoplasia occurred in male rats at 25,000 and 50,000 ppm and in female rats at 6,300 ppm and higher. Nuclear enlargement (karyomegaly) of the renal corticaltubular epithelium was observed in male and female mice administered 12,500-50,000 ppm; these kidney lesions were judged to be more severe and occurred more frequently at concentrations of 25,000 ppm and higher. Because of kidney lesions, bone marrow responses, and body weight effects at 12,500 ppm and higher and increased deaths and clinical signs at 25,000 and 50,000 ppm, dietary concentrations selected for male and female rats in the 2-year studies were 0, 3,100, and 6,300 ppm. Based on clinical signs, kidney effects, and body weight decreases at 25,000 and 50,000 ppm, dietary concentrations selected for male and female mice in the 2-year studies were 0, 6,300, and 12,500 ppm. Diets containing the chemical at these concentrations were fed to groups of 50 male and 50 female rats and 50 male and 50 female mice for 103 weeks. Body Weight and Survival in the Two-Year Studies: Mean body weights of dosed rats were generally 8%-17% lower than those of controls, and mean body weights of dosed mice were generally 5%-22% lower than those of controls throughout the studies. The average amount of a-methyldopa sesquihydrate consumed per day was approximately 110-120 or 230-240 mg/kg per day by low and high dose rats and 830-890 or 1,760-1,800 mg/kg by low and high dose mice. Survival was comparable among dosed and control groups (male rats: control, 28/50; low dose, 26/50; high dose, 27/50; female rats: 35/50; 34/50; 29/50; male mice: 44/50; 42/50; 39/50; female mice: 42/50; 40/50; 38/50). Clinical signs considered to be dose-related included fighting in male rats, irritability in male mice, and rough hair coats in female mice. Nonneoplastic and Neoplasle rats, irritability in male mice, and rough hair coats in female mice. Nonneoplastic and Neoplastic Effects in the Two-Year Studies: Several lesions of the forestomach, including edema, chronic inflammation, epithelial hyperplasia, and ulcers, were seen at low incidences in high dose rats. No forestomach neoplasms occurred. No neoplastic lesions were observed in either male or female rats which were considered related to a-methyldopa sesquihydrate exposure. Nephropathy (control, 3/50; low dose, 21/50; high dose, 32/50), karyomegaly (nuclear enlargement) of cells of the tubular epithelium (0/50; 46/50; 44/50, and cysts (2/50; 10/50; 10/50) were observed in the kidney of dosed female mice. Low incidences of tubular cell hyperplasia (0/50; 1/50; 1/50), tubular cell adenomas (0/50; 2/50; 0/50), and tubular cell adenocarcinomas (0/50; 0/50; 1/50) were observed in male mice. Tubular cell adenomas (3/2,029, 0.15&percnt;) and tubular cell adenocarcinomas (3/2,029, 0.15&percnt;)are uncommon in untreated control male B6C3F1 mice. No neoplastic lesions in female mice were considered related to a-methyldopa sesquihydrate exposure. Decreased incidences of several site-specific neoplasms were observed in dosed rats and mice; these decreases might have been due in part to decreased weight gain in dosed groups. The decreases occurred in the adrenal medulla of male rats (pheochromocytomas or malignant pheochromocytomas, combined: 21/49; 3/49; 10/50), uterus of female rats (endometrial stromal polyps: 15/50; 5/49; 1/50), liver of male and female mice (hepatocellular adenomas or carcinomas, combined-- male: 15/50; 5/50; 6/50; female: 4/50; 1/50; 0/50), and anterior pituitary gland of female mice (adenoma: 9/49; 4/40; 2/50). The incidences of malignant tumors (male: 19/50; 9/50; 8/50; female: 21/50; 16/50; 12/50) and benign or malignant tumors (combined) (male: 32/50; 15/50; 17/50; female: 33/50; 22/50; 21/50) were reduced in dosed mice. Reproductive Studies: a-Methyldopa sesquihydrate was administered to male F344/N rats in corn oil by gavage 5 days per week for 65 days at doses of 0, 50, 100, 200, or 400 mg/kg. Decreased body weight was seen in dosed animals. Male rats were mated to untreated female F344/N rats on days 57-61, necropsies were performed on days 65-67, and reproductive toxicity was measured by sperm count, sperm motility, organ weights, hormone levels, and histologic evaluation of the testis. Decreased fertility was observed in males dosed with a-methyldopa sesquihydrate at 200 and 400 mg/kg. Decreases were also seen in sperm count, sperm motility, apparent number of late spermatids, and plasma testosterone levels in males in the 200 and 400 mg/kg groups. This alteration of reproductive function in male rats was found to be reversible after a 13-week recovery period (without dosing). The decreased fertility observed after a-methyldopa sesquihydrate administration was probably due in part to the decreases in plasma testosterone levels. Genetic Toxicity: a-Methyldopa sesquihydrate was not mutagenic when tested with or without exogenous metabolic activation with a preincubation protocol in four strains of Salmonella typhimurium (TA97, TA98, TA100, or TA1535). No increase in chromosomal aberrations or sister chromatid exchanges was observed in Chinese hamsterovary (CHO) cells exposed to a-methyldopa sesquihydrate with or without S9. Audit: The data, documents, and pathology materials from the 2-year studies of a-methyldopa sesquihydrate have been audited. The audit findings show that the conduct of the studies is documented adequately and support the data and results given in this Technical Report. Conclusions: Under the conditions of these 2-year feed studies, there was no evidence of carcinogenic activity of a-methyldopa sesquihydrate for male or female F344/N rats fed diets containing 3,100 or 6,300 ppm. There was equivocal evidence of carcinogenic activity of a-methyldopa sesquihydrate for male B6C3F1 mice, as shown by three dosed mice having uncommon tubular cell tumors of the kidney. There was no evidence of carcinogenic activity of a -methyldopa sesquihydrate for female B6C3F1 mice fed diets containing 6,300 or 12,500 ppm. Nonneoplastic lesions of the kidney including karyomegaly were observed in dosed female mice. Decreased incidences of several tumor types (in the adrenal gland in male rats, uterus in female rats, liver in male and female mice, and anterior pituitary gland in female mice) were considered related to a-methyldopa sesquihydrate exposure. Synonyms for a-Methyldopa or a-Methyldopa sesquihydrate: 3-hydroxy-a-methyl-L-tyrosine sesquihydrate; L-(a-MD); a-methyl-L-3,4-dihydroxyphenylalanine; L(-)-b-(3,4-dihydroxyphenyl)-a -methylalanine; L-(-)-3-(3,4-dihydroxyphenyl)-2-methylalanine; L-a-methyl-3,4-dihydroxyphenylalanine; a-methyl-b-(3,4-dihydroxyphenyl)-L-alanine; L-(-)-a-methyl-b-(3,4-dihydroxyphenyl)alanine; (-)-methyldopa; L-methyldopa; L-a-methyldopa; a-methyl-L-dopa Trade Names for a-Methyldopa or a-Methyldopa sesquihydrate: Aldomet; Aldometil; Aldomin; a-Medopa; AMD; Bayer 1440 L; Baypresol; Dopamet; Dopatec; Dopegyt; Hyperpax; Medomet; Medopren; Methoplain; MK. B51; MK-351; Presinol; Presolisin; Sedometil; Sembrina
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PMID:NTP Toxicology and Carcinogenesis Studies of alpha-Methyldopa Sesquihydrate (CAS No. 41372-08-1) in F344/N Rats and B6C3F1 Mice (Feed Studies). 1270 36

Spontaneously hypertensive rats (SHR) might have increased renal production of dopamine. L-3,4-Dihydroxyphenylalanine (L-DOPA) uptake in renal epithelial cells is promoted through the type 2 L-type amino acid transporter (LAT2), and this might rate-limit the synthesis of renal dopamine. The present study evaluated L-DOPA uptake in isolated renal proximal tubules of SHR and normotensive controls (Wistar-Kyoto rats [WKY]). Expression of LAT1 and LAT2 in the renal cortex and intestinal mucosa was also evaluated. Tubular uptake of L-DOPA in WKY and SHR was a saturable process, being greater in the latter than the former at both 4 and 12 weeks of age. cDNA fragments (LAT1, 688 bp; LAT2, 729 bp) labeled with 32P were used as probes for Northern blot analysis. Expression of LAT2 in SHR kidneys was higher than in WKY kidneys. This increase was more marked at 4 than at 12 weeks of age. Intestinal LAT2 expression, however, was identical in SHR and WKY at both 4 and 12 week of age. By Northern blot analysis, the LAT1 transcript was not identified in either the kidney or intestine. Kidney total RNA was then reverse-transcribed and amplified by polymerase chain reaction with specific primers for LAT1. The presence of a fragment of the expected size for LAT1 led to the conclusion that LAT1 mRNA is a rare message in kidney. We conclude that overexpression of LAT2 in the SHR kidney might contribute to the enhanced L-DOPA uptake, which is organ specific and precedes the onset of hypertension.
Hypertension 2003 Oct
PMID:Organ-specific overexpression of renal LAT2 and enhanced tubular L-DOPA uptake precede the onset of hypertension. 1297 85

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