Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors

Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors

Twelve terpenoids were evaluated in the treatment of type 2 diabetes mellitus: seven monoterpenes (geranyl acetate (<b>1</b>), geranic acid (<b>2</b>), citral (<b>3)</b>, geraniol (<b>4</b>), methyl geranate (<b>5</b>), nerol (<b>6<...

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Main Authors: Miguel Valdes, Fernando Calzada, Jessica Mendieta-Wejebe
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Molecules
Subjects:
acyclic terpenes
antihyperglycemic activity
diabetes mellitus
Online Access:https://www.mdpi.com/1420-3049/24/22/4020
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spelling doaj-a6a7d6b79c8c41efab2a4c978e246e7c2020-11-25T00:55:41ZengMDPI AGMolecules1420-30492019-11-012422402010.3390/molecules24224020molecules24224020Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) InhibitorsMiguel Valdes0Fernando Calzada1Jessica Mendieta-Wejebe2Instituto Politécnico Nacional, Sección de Estudios de Posgrado e Investigación, Escuela Superior de Medicina, Plan de San Luis y Salvador Díaz Mirón S/N, Col. Casco de Santo Tomás, Ciudad de México CP 11340, CDMX, MexicoUMAE Hospital de Especialidades 2º Piso CORSE Centro Médico Nacional Siglo XXI, Instituto Mexicano del Seguro Social, Av. Cuauhtemoc 330, Col. Doctores, Ciudad de México CP 06720, CDMX, MexicoInstituto Politécnico Nacional, Sección de Estudios de Posgrado e Investigación, Escuela Superior de Medicina, Plan de San Luis y Salvador Díaz Mirón S/N, Col. Casco de Santo Tomás, Ciudad de México CP 11340, CDMX, MexicoTwelve terpenoids were evaluated in the treatment of type 2 diabetes mellitus: seven monoterpenes (geranyl acetate (<b>1</b>), geranic acid (<b>2</b>), citral (<b>3)</b>, geraniol (<b>4</b>), methyl geranate (<b>5</b>), nerol (<b>6</b>), and citronellic acid (<b>7</b>)), three sesquiterpenes (farnesal (<b>8</b>), farnesol (<b>9</b>), and farnesyl acetate (<b>10</b>)), one diterpene (geranylgeraniol (<b>11</b>)), and one triterpene (squalene (<b>12</b>)) were selected to carry out a study on normoglycemic and streptozotocin-induced diabetic mice. Among these, <b>2</b>, <b>3</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed antihyperglycemic activity in streptozotocin-induced diabetic mice. They were then selected for evaluation in oral sucrose and lactose tolerance tests (OSTT and OLTT) as well as in an oral glucose tolerance test (OGTT). In the OSTT and OLTT, compounds <b>3</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed a reduction in postprandial glucose peaks 2 h after a sucrose or lactose load (comparable to acarbose). In the case of the OGTT, <b>2</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed a reduction in postprandial glucose peaks 2 h after a glucose load (comparable to canagliflozin). Our results suggest that the control of postprandial hyperglycemia may be mediated by the inhibition of disaccharide digestion, such as sucrose and lactose, and the regulation of the absorption of glucose. The first case could be associated with an <inline-formula> <math display="inline"> <semantics> <mo>&#8733;</mo> </semantics> </math> </inline-formula>-glucosidase inhibitory effect and the second with an inhibition of the sodium&#8722;glucose type 1 (SGLT-1) cotransporter. Finally, five acyclic terpenes may be candidates for the development and search for new &#945;-glucosidase and SGLT-1 cotransporter inhibitors.https://www.mdpi.com/1420-3049/24/22/4020acyclic terpenesantihyperglycemic activitydiabetes mellitus
collection DOAJ
language English
format Article
sources DOAJ
author Miguel Valdes
Fernando Calzada
Jessica Mendieta-Wejebe
spellingShingle Miguel Valdes
Fernando Calzada
Jessica Mendieta-Wejebe
Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
Molecules
acyclic terpenes
antihyperglycemic activity
diabetes mellitus
author_facet Miguel Valdes
Fernando Calzada
Jessica Mendieta-Wejebe
author_sort Miguel Valdes
title Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
title_short Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
title_full Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
title_fullStr Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
title_full_unstemmed Structure–Activity Relationship Study of Acyclic Terpenes in Blood Glucose Levels: Potential α-Glucosidase and Sodium Glucose Cotransporter (SGLT-1) Inhibitors
title_sort structure–activity relationship study of acyclic terpenes in blood glucose levels: potential α-glucosidase and sodium glucose cotransporter (sglt-1) inhibitors
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2019-11-01
description Twelve terpenoids were evaluated in the treatment of type 2 diabetes mellitus: seven monoterpenes (geranyl acetate (<b>1</b>), geranic acid (<b>2</b>), citral (<b>3)</b>, geraniol (<b>4</b>), methyl geranate (<b>5</b>), nerol (<b>6</b>), and citronellic acid (<b>7</b>)), three sesquiterpenes (farnesal (<b>8</b>), farnesol (<b>9</b>), and farnesyl acetate (<b>10</b>)), one diterpene (geranylgeraniol (<b>11</b>)), and one triterpene (squalene (<b>12</b>)) were selected to carry out a study on normoglycemic and streptozotocin-induced diabetic mice. Among these, <b>2</b>, <b>3</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed antihyperglycemic activity in streptozotocin-induced diabetic mice. They were then selected for evaluation in oral sucrose and lactose tolerance tests (OSTT and OLTT) as well as in an oral glucose tolerance test (OGTT). In the OSTT and OLTT, compounds <b>3</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed a reduction in postprandial glucose peaks 2 h after a sucrose or lactose load (comparable to acarbose). In the case of the OGTT, <b>2</b>, <b>7</b>, <b>8</b>, <b>9</b>, and <b>10</b> showed a reduction in postprandial glucose peaks 2 h after a glucose load (comparable to canagliflozin). Our results suggest that the control of postprandial hyperglycemia may be mediated by the inhibition of disaccharide digestion, such as sucrose and lactose, and the regulation of the absorption of glucose. The first case could be associated with an <inline-formula> <math display="inline"> <semantics> <mo>&#8733;</mo> </semantics> </math> </inline-formula>-glucosidase inhibitory effect and the second with an inhibition of the sodium&#8722;glucose type 1 (SGLT-1) cotransporter. Finally, five acyclic terpenes may be candidates for the development and search for new &#945;-glucosidase and SGLT-1 cotransporter inhibitors.
topic acyclic terpenes
antihyperglycemic activity
diabetes mellitus
url https://www.mdpi.com/1420-3049/24/22/4020
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AT fernandocalzada structureactivityrelationshipstudyofacyclicterpenesinbloodglucoselevelspotentialaglucosidaseandsodiumglucosecotransportersglt1inhibitors
AT jessicamendietawejebe structureactivityrelationshipstudyofacyclicterpenesinbloodglucoselevelspotentialaglucosidaseandsodiumglucosecotransportersglt1inhibitors
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