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[title] => [Leptin deficiency and beta-cell dysfunction underlie type 2 diabetes in compound Akt knockout mice.]
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<div class="biblio_authors"><h3>Authors:</h3> <a href="/biblio/author/Chen+WS">Chen WS , Peng XD , Wang Y , Xu PZ , Chen ML , Luo Y , Jeon SM , Coleman K , Haschek WM , Bass J , Philipson LH , Hay N ,</a></div>
<div class="biblio_source"><h3>Source: </h3> Molecular and cellular biology, Volume 29, p.3151-62 (2009)</div>
<h3>URL:</h3><a href="http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493">http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493</a>
<h3>Abstract:</h3> <p>Phenotypic analyses of mice null for the individual Akt isoforms suggested that they are functionally distinct and that only Akt2 plays a role in diabetes. We show here that Akt isoforms play compensatory and complementary roles in glucose homeostasis and diabetes. Insulin resistance in Akt2(-/-) mice was inhibited by haplodeficiency of Pten, suggesting that other Akt isoforms can compensate for Akt2 function. Haplodeficiency of Akt1 in Akt2(-/-) mice, however, converts prediabetes to overt type 2 diabetes, which is also reversed by haplodeficiency of Pten. Akt3 does not appear to contribute significantly to diabetes. Overt type 2 diabetes in Akt1(+/-) Akt2(-/-) mice is manifested by hyperglycemia due to beta-cell dysfunction combined with impaired glucose homeostasis due to markedly decreased leptin levels. Restoring leptin levels was sufficient to restore normal blood glucose and insulin levels in Akt1(+/-) Akt2(-/-) and Akt2(-/-) mice, suggesting that leptin-deficiency is the predominant cause of diabetes in these mice. These results uncover a new mechanism linking Akt to diabetes, provide a therapeutic strategy, and show that diabetes induced as a consequence of cancer therapy, via Akt inhibition, could be reversed by leptin therapy.</p>
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[biblio_secondary_title] => [Molecular and cellular biology]
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[biblio_authors] => [Chen WS , Peng XD , Wang Y , Xu PZ , Chen ML , Luo Y , Jeon SM , Coleman K , Haschek WM , Bass J , Philipson LH , Hay N ,]
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[biblio_abst_e] => [<p>Phenotypic analyses of mice null for the individual Akt isoforms suggested that they are functionally distinct and that only Akt2 plays a role in diabetes. We show here that Akt isoforms play compensatory and complementary roles in glucose homeostasis and diabetes. Insulin resistance in Akt2(-/-) mice was inhibited by haplodeficiency of Pten, suggesting that other Akt isoforms can compensate for Akt2 function. Haplodeficiency of Akt1 in Akt2(-/-) mice, however, converts prediabetes to overt type 2 diabetes, which is also reversed by haplodeficiency of Pten. Akt3 does not appear to contribute significantly to diabetes. Overt type 2 diabetes in Akt1(+/-) Akt2(-/-) mice is manifested by hyperglycemia due to beta-cell dysfunction combined with impaired glucose homeostasis due to markedly decreased leptin levels. Restoring leptin levels was sufficient to restore normal blood glucose and insulin levels in Akt1(+/-) Akt2(-/-) and Akt2(-/-) mice, suggesting that leptin-deficiency is the predominant cause of diabetes in these mice. These results uncover a new mechanism linking Akt to diabetes, provide a therapeutic strategy, and show that diabetes induced as a consequence of cancer therapy, via Akt inhibition, could be reversed by leptin therapy.</p>]
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<div class="biblio_authors"><h3>Authors:</h3> <a href="/biblio/author/Chen+WS">Chen WS , Peng XD , Wang Y , Xu PZ , Chen ML , Luo Y , Jeon SM , Coleman K , Haschek WM , Bass J , Philipson LH , Hay N ,</a></div>
<div class="biblio_source"><h3>Source: </h3> Molecular and cellular biology, Volume 29, p.3151-62 (2009)</div>
<h3>URL:</h3><a href="http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493">http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493</a>
<h3>Abstract:</h3> <p>Phenotypic analyses of mice null for the individual Akt isoforms suggested that they are functionally distinct and that only Akt2 plays a role in diabetes. We show here that Akt isoforms play compensatory and complementary roles in glucose homeostasis and diabetes. Insulin resistance in Akt2(-/-) mice was inhibited by haplodeficiency of Pten, suggesting that other Akt isoforms can compensate for Akt2 function. Haplodeficiency of Akt1 in Akt2(-/-) mice, however, converts prediabetes to overt type 2 diabetes, which is also reversed by haplodeficiency of Pten. Akt3 does not appear to contribute significantly to diabetes. Overt type 2 diabetes in Akt1(+/-) Akt2(-/-) mice is manifested by hyperglycemia due to beta-cell dysfunction combined with impaired glucose homeostasis due to markedly decreased leptin levels. Restoring leptin levels was sufficient to restore normal blood glucose and insulin levels in Akt1(+/-) Akt2(-/-) and Akt2(-/-) mice, suggesting that leptin-deficiency is the predominant cause of diabetes in these mice. These results uncover a new mechanism linking Akt to diabetes, provide a therapeutic strategy, and show that diabetes induced as a consequence of cancer therapy, via Akt inhibition, could be reversed by leptin therapy.</p>
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<div class="biblio_authors"><h3>Authors:</h3> <a href="/biblio/author/Chen+WS">Chen WS , Peng XD , Wang Y , Xu PZ , Chen ML , Luo Y , Jeon SM , Coleman K , Haschek WM , Bass J , Philipson LH , Hay N ,</a></div>
<div class="biblio_source"><h3>Source: </h3> Molecular and cellular biology, Volume 29, p.3151-62 (2009)</div>
<h3>URL:</h3><a href="http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493">http://mcb.asm.org/cgi/pmidlookup?view=long&pmid=19289493</a>
<h3>Abstract:</h3> <p>Phenotypic analyses of mice null for the individual Akt isoforms suggested that they are functionally distinct and that only Akt2 plays a role in diabetes. We show here that Akt isoforms play compensatory and complementary roles in glucose homeostasis and diabetes. Insulin resistance in Akt2(-/-) mice was inhibited by haplodeficiency of Pten, suggesting that other Akt isoforms can compensate for Akt2 function. Haplodeficiency of Akt1 in Akt2(-/-) mice, however, converts prediabetes to overt type 2 diabetes, which is also reversed by haplodeficiency of Pten. Akt3 does not appear to contribute significantly to diabetes. Overt type 2 diabetes in Akt1(+/-) Akt2(-/-) mice is manifested by hyperglycemia due to beta-cell dysfunction combined with impaired glucose homeostasis due to markedly decreased leptin levels. Restoring leptin levels was sufficient to restore normal blood glucose and insulin levels in Akt1(+/-) Akt2(-/-) and Akt2(-/-) mice, suggesting that leptin-deficiency is the predominant cause of diabetes in these mice. These results uncover a new mechanism linking Akt to diabetes, provide a therapeutic strategy, and show that diabetes induced as a consequence of cancer therapy, via Akt inhibition, could be reversed by leptin therapy.</p>
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