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PTEN mutations as a cause of constitutive insulin sensitivity and obesity

PTEN mutations as a cause of constitutive insulin sensitivity and obesity
PTEN mutations as a cause of constitutive insulin sensitivity and obesity
BACKGROUND: Epidemiologic and genetic evidence links type 2 diabetes, obesity, and cancer. The tumor-suppressor phosphatase and tensin homologue (PTEN) has roles in both cellular growth and metabolic signaling. Germline PTEN mutations cause a cancer-predisposition syndrome, providing an opportunity to study the effect of PTEN haploinsufficiency in humans.

METHODS: We measured insulin sensitivity and beta-cell function in 15 PTEN mutation carriers and 15 matched controls. Insulin signaling was measured in muscle and adipose-tissue biopsy specimens from 5 mutation carriers and 5 well-matched controls. We also assessed the effect of PTEN haploinsufficiency on obesity by comparing anthropometric indexes between the 15 patients and 2097 controls from a population-based study of healthy adults. Body composition was evaluated by means of dual-emission x-ray absorptiometry and skinfold thickness.

RESULTS: Measures of insulin resistance were lower in the patients with a PTEN mutation than in controls (e.g., mean fasting plasma insulin level, 29 pmol per liter [range, 9 to 99] vs. 74 pmol per liter [range, 22 to 185]; P=0.001). This finding was confirmed with the use of hyperinsulinemic euglycemic clamping, showing a glucose infusion rate among carriers 2 times that among controls (P=0.009). The patients' insulin sensitivity could be explained by the presence of enhanced insulin signaling through the PI3K-AKT pathway, as evidenced by increased AKT phosphorylation. The PTEN mutation carriers were obese as compared with population-based controls (mean body-mass index [the weight in kilograms divided by the square of the height in meters], 32 [range, 23 to 42] vs. 26 [range, 15 to 48]; P<0.001). This increased body mass in the patients was due to augmented adiposity without corresponding changes in fat distribution.

CONCLUSIONS: PTEN haploinsufficiency is a monogenic cause of profound constitutive insulin sensitization that is apparently obesogenic. We demonstrate an apparently divergent effect of PTEN mutations: increased risks of obesity and cancer but a decreased risk of type 2 diabetes owing to enhanced insulin sensitivity. (Funded by the Wellcome Trust and others).
1002-1011
Pal, Aparna
f0360e72-8208-4772-ba7d-7219b939d683
Barber, Thomas M.
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Van de Bunt, Martijn
23582209-45ef-470b-a987-a774ce70917d
Rudge, Simon A.
cb682c14-b746-4986-9c84-f359a5ddc8ab
Zhang, Qifeng
9e06b7bd-abf4-45d1-9282-6c975ad24697
Lachlan, Katherine L.
175ce889-ede8-477e-93eb-afefc1af5dda
Cooper, Nicola S.
5e26c640-9c61-45d6-93bb-d7abc5c17a29
Linden, Helen
c17cc951-6ced-4cf2-8691-b0ec5811e1a1
Levy, Jonathan C.
d9dbe8ca-9ef9-4b2c-b3c1-64ccec04106f
Wakelam, Michael J.O.
3f07f181-8dbc-4807-85d7-9dae0e1f9861
Walker, Lisa
682b9d2c-3469-416e-b9dc-a5c68626fba7
Karpe, Fredrik
05abcb32-83b7-44eb-ab12-7c360f4f9c12
Gloyn, Anna L.
e1ef7043-a852-4f6d-ad90-a644e328af88
Pal, Aparna
f0360e72-8208-4772-ba7d-7219b939d683
Barber, Thomas M.
2d449412-d890-49ac-b018-de11089fce99
Van de Bunt, Martijn
23582209-45ef-470b-a987-a774ce70917d
Rudge, Simon A.
cb682c14-b746-4986-9c84-f359a5ddc8ab
Zhang, Qifeng
9e06b7bd-abf4-45d1-9282-6c975ad24697
Lachlan, Katherine L.
175ce889-ede8-477e-93eb-afefc1af5dda
Cooper, Nicola S.
5e26c640-9c61-45d6-93bb-d7abc5c17a29
Linden, Helen
c17cc951-6ced-4cf2-8691-b0ec5811e1a1
Levy, Jonathan C.
d9dbe8ca-9ef9-4b2c-b3c1-64ccec04106f
Wakelam, Michael J.O.
3f07f181-8dbc-4807-85d7-9dae0e1f9861
Walker, Lisa
682b9d2c-3469-416e-b9dc-a5c68626fba7
Karpe, Fredrik
05abcb32-83b7-44eb-ab12-7c360f4f9c12
Gloyn, Anna L.
e1ef7043-a852-4f6d-ad90-a644e328af88

Pal, Aparna, Barber, Thomas M., Van de Bunt, Martijn, Rudge, Simon A., Zhang, Qifeng, Lachlan, Katherine L., Cooper, Nicola S., Linden, Helen, Levy, Jonathan C., Wakelam, Michael J.O., Walker, Lisa, Karpe, Fredrik and Gloyn, Anna L. (2012) PTEN mutations as a cause of constitutive insulin sensitivity and obesity. New England Journal of Medicine, 367 (11), 1002-1011. (doi:10.1056/NEJMoa1113966). (PMID:22970944)

Record type: Article

Abstract

BACKGROUND: Epidemiologic and genetic evidence links type 2 diabetes, obesity, and cancer. The tumor-suppressor phosphatase and tensin homologue (PTEN) has roles in both cellular growth and metabolic signaling. Germline PTEN mutations cause a cancer-predisposition syndrome, providing an opportunity to study the effect of PTEN haploinsufficiency in humans.

METHODS: We measured insulin sensitivity and beta-cell function in 15 PTEN mutation carriers and 15 matched controls. Insulin signaling was measured in muscle and adipose-tissue biopsy specimens from 5 mutation carriers and 5 well-matched controls. We also assessed the effect of PTEN haploinsufficiency on obesity by comparing anthropometric indexes between the 15 patients and 2097 controls from a population-based study of healthy adults. Body composition was evaluated by means of dual-emission x-ray absorptiometry and skinfold thickness.

RESULTS: Measures of insulin resistance were lower in the patients with a PTEN mutation than in controls (e.g., mean fasting plasma insulin level, 29 pmol per liter [range, 9 to 99] vs. 74 pmol per liter [range, 22 to 185]; P=0.001). This finding was confirmed with the use of hyperinsulinemic euglycemic clamping, showing a glucose infusion rate among carriers 2 times that among controls (P=0.009). The patients' insulin sensitivity could be explained by the presence of enhanced insulin signaling through the PI3K-AKT pathway, as evidenced by increased AKT phosphorylation. The PTEN mutation carriers were obese as compared with population-based controls (mean body-mass index [the weight in kilograms divided by the square of the height in meters], 32 [range, 23 to 42] vs. 26 [range, 15 to 48]; P<0.001). This increased body mass in the patients was due to augmented adiposity without corresponding changes in fat distribution.

CONCLUSIONS: PTEN haploinsufficiency is a monogenic cause of profound constitutive insulin sensitization that is apparently obesogenic. We demonstrate an apparently divergent effect of PTEN mutations: increased risks of obesity and cancer but a decreased risk of type 2 diabetes owing to enhanced insulin sensitivity. (Funded by the Wellcome Trust and others).

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Published date: 13 September 2012
Organisations: Human Development & Health

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Local EPrints ID: 356581
URI: http://eprints.soton.ac.uk/id/eprint/356581
PURE UUID: 27832714-9e22-4a5f-85ff-891d48fdabd6

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Date deposited: 11 Sep 2013 09:05
Last modified: 14 Mar 2024 14:50

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Contributors

Author: Aparna Pal
Author: Thomas M. Barber
Author: Martijn Van de Bunt
Author: Simon A. Rudge
Author: Qifeng Zhang
Author: Katherine L. Lachlan
Author: Nicola S. Cooper
Author: Helen Linden
Author: Jonathan C. Levy
Author: Michael J.O. Wakelam
Author: Lisa Walker
Author: Fredrik Karpe
Author: Anna L. Gloyn

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