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1.
Bull Exp Biol Med ; 176(4): 437-441, 2024 Feb.
Article in English | MEDLINE | ID: mdl-38491255

ABSTRACT

Microalbuminuria is an early symptom and prognostic marker of the progression of renal pathology. The analysis of the role of anionic components of the renal glomeruli in the albumin retention and the development of a model of minimal changes in the glomerular filter leading to the appearance of microalbuminuria are relevant. The effect of organic cations D-arginine methyl esters (D-AME) and D-nitroarginine (D-NAME) on the excretion of albumin by the kidneys in rats was studied. D-AME had no effect on urinary albumin excretion in rats. D-NAME caused microalbuminuria, which persisted for more than a day and sharply increased after injection of vasopressin. The number of anionic sites labeled with polyethyleneimine decreased in the structures of the glomerular filter. D-NAME-induced microalbuminuria can later serve as a model for studying nephroprotective or damaging factors.


Subject(s)
Kidney Diseases , Kidney , Rats , Animals , Nitroarginine/pharmacology , NG-Nitroarginine Methyl Ester/pharmacology , Kidney/pathology , Kidney Glomerulus , Albuminuria/chemically induced , Kidney Diseases/pathology , Albumins/pharmacology
2.
Bull Exp Biol Med ; 170(5): 618-622, 2021 Mar.
Article in English | MEDLINE | ID: mdl-33788103

ABSTRACT

Glucagon-like peptide-1 (GLP-1), a product of partial proteolysis of proglucagon, is involved not only in regulation of carbohydrates, but also in water-salt metabolism. The study examined the role of proglucagon derivatives GLP-1, GLP-2, and oxyntomodulin in rat osmoregulation. Of them, only blood plasma GLP-1 increased in response to water load (20 ml/kg). Administration of glucose (1.5 g/kg) elevated GLP-1 and oxyntomodulin but did not change the level of GLP-2. GLP-1 accelerated excretion of excess water during hyperhydration, whereas GLP-2 decreased this parameter. No physiological effects of oxyntomodulin in the kidneys were revealed. Probably, the blood levels of proglucagon derivatives are independently regulated for each peptide. In contrast to GLP-2 and oxyntomodulin, GLP-1 is involved in osmoregulation.


Subject(s)
Peptides/pharmacology , Proglucagon/pharmacology , Animals , Female , Glucagon-Like Peptide 1/chemistry , Glucagon-Like Peptide 2/chemistry , Kidney/drug effects , Kidney/metabolism , Osmoregulation/drug effects , Peptides/chemistry , Proglucagon/chemistry , Rats , Rats, Wistar
3.
Acta Naturae ; 12(1): 73-83, 2020.
Article in English | MEDLINE | ID: mdl-32477601

ABSTRACT

The nonapeptides of neurohypophysis, vasotocin and mesotocin, detected in most vertebrates, are replaced by vasopressin and oxytocin in mammals. Using bioinformatics methods, we determined the spectrum of receptor subtypes for these hormones in mammals and their physiological effects in the kidneys of rats. A search for sequences similar to the vertebrate vasotocin receptor by proteomes and transcriptomas of nine mammalian species and the rat genome revealed three subtypes of vasopressin receptors (V1a, V1b, and V2) and one type of oxytocin receptors. In the kidneys of non-anesthetized rats, which received a water load of 2 ml per 100 g of body weight, three effects of vasopressin were revealed: 1) increased reabsorption of water and sodium, 2) increased excretion of potassium ions, and 3) increased excretion of sodium ions. It has been suggested that each of the effects on the kidney is associated with selective stimulation of the vasopressin receptor subtypes V2, V1b, and V1a depending on the concentration of nonapeptide. In experiments on non-anaesthetized rats with a water load, the injection of oxytocin reduces the reabsorption of solute-free water in the kidneys and increases the excretion of sodium ions. The possible physiological mechanisms behind the realization of both effects with the participation of a single type of oxytocin receptors are being analyzed. Thus, the spectrum of activated receptor subtypes varies depending on the current concentration of neurohypophyseal hormones, as a result of which the predominant effect on renal function changes, which ensures precise regulation of water-salt homeostasis.

4.
Dokl Biol Sci ; 469(1): 156-8, 2016 Jul.
Article in English | MEDLINE | ID: mdl-27595820

ABSTRACT

We have found the physiological mechanism of intensification of the excessive fluid removal from the body under the action of glucagon-like peptide-1 and its analog exenatide. Under the water load in rats, exenatide significantly increased the clearance of lithium, reduced fluid reabsorption in the proximal tubule of the nephron and intensified reabsorption of sodium ions in the distal parts, which contributed to the formation of sodium-free water and faster recovery of osmotic homeostasis. Blocking this pathway with a selective antagonist of glucagon-like peptide-1 receptors slowed down the elimination of excessive water from the body.


Subject(s)
Glucagon-Like Peptide 1/pharmacology , Peptides/pharmacology , Venoms/pharmacology , Water-Electrolyte Balance/drug effects , Animals , Exenatide , Female , Rats , Rats, Wistar
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