Page 63

Notes:

conferenceseries

.com

March 22-23, 2017 | Rome, Italy

2

nd

World Congress on

Public Health & Nutrition

Volume 7, Issue 1 (Suppl)

J Community Med Health Educ 2017

ISSN: 2161-0711, JCMHE an open access journal

Public Health 2017

March 22-23, 2017

INTESTINAL DIGESTION OF CARBOHYDRATES AND GLUCOSE ABSORPTION DEPEND ON

THE DOSE AND DURATION OF GLUCOCORTICOIDADMINISTRATION

Alexandr S Polozov

a

, Elizaveta V Savochkina

a

, AndreyA Gruzdkov

a

, NadezhdaM Grefner

a

, YuliaV Dmitrieva

a

, Anna S Alekseeva

a

and

Luidmila V Gromova

a

a

Pavlov Institute of Physiology, Russia

Statement of the Problem:

Carbohydrates, particularly glucose, play a key role in energy metabolism. Despite the importance

of intestinal carbohydrate digestion and glucose absorption for health, the impact of glucocorticoids (endogenous or exogenous

released during stress) on these processes has been poorly documented. The purpose of this study is to examine on rats the effect of

corticosterone on activities of intestinal carbohydrases, glucose absorption and levels of the glucose transporters SGLT1 and GLUT2

in the apical membrane of the enterocytes, depending on dose of the hormone and on the duration of its administration.

Methodology &Theoretical Orientation:

The rats were daily administered corticosterone (4 and 12mg/kg) or solvent of the hormone

(control). Five hours or three weeks after administration of the substances, activities of the intestinal enzymes were determined.

Glucose absorption was regularly assessed using the test, based on measurements of the rate of free consumption of concentrated

glucose solution by fasted rats. Levels of glucose transporters SGLT1 and GLUT2 in the apical membrane of the enterocytes were

determined using immunocytochemistry and confocal microscopy.

Findings:

Corticosterone administration has enhanced absorption of glucose in the small intestine. The effect has depended on

dose of the hormone, but not on duration of its administration. At 12 mg/kg, there was an increase in activities of glucoamylase and

maltase in the intestinal mucosa and in the level of transporter GLUT2 (but not SGLT1) in the apical membrane of the enterocytes.

Conclusion & Significance:

The state of hydrolytic and transport systems of the small intestine depends on the dose and the duration

of administration of glucocorticoids. The data obtained are important for assessment of functional status of the small intestine after

the short and long injections of glucocorticoids at various doses in clinic or in the case of stress of varying severity and duration.

Biography

Polozov Alexandr S. graduated in 2016 from the St. Petersburg State Academy of Veterinary Medicine in the specialty veterinarian. Currently enrolled in graduate

school (first year) and performs a thesis on "The influence of type 2 diabetes mellitus on glucose absorption and membrane enzymes involved in the digestive

and protective function in the small intestine." He has experience in veterinary clinics: observation of animal behavior under stress and after the introduction of

glucocorticoids for therapeutic purposes, assessment of functional parameters of the animal organism. He can use the method for assessing intestinal glucose

absorption ability in vivo (in the absence of anesthesia and surgical trauma), as well as biochemical methods for determining the activity of intestinal digestive

enzymes and blood cell polarization.

polozovalexandr20@gmail.com

Alexandr S Polozov et al., J Community Med Health Educ 2017, 7:1 (Suppl)

http://dx.doi.org/10.4172/2161-0711.C1.025