Extranuclear or nongenomic actions of thyroid hormone are unaffected by the inhibitors of protein synthesis, their site of action has been localized at the plasma membrane, but also at the cytoplasm and organelles such as the mitochondria. This review takes into account the major advances in nongenomic effects of thyroid hormones in nervous system, immune system and cardiovascular tissue, particularly focusing on the plasma membrane receptor integrin αvβ3. In nerve cells the nongenomic effects of thyroid hormones point mainly to a direct modulation of several channels/receptors for the major neurotransmitters, even though more complex pathways have also been demonstrated. Certain neuroprotective actions have recently been described for thyronamines and this may be relevant to Alzheimer’s disease and multiple sclerosis. The immune system is also modulated nongenomically by thyroid hormones, through potentiation of the effects of cytokines such as IFN-γ or LPS, activators of STAT protein leading to activation of the mammalian target of rapamycin pathway (mTOR), a highly-conserved kinase downstream target of nongenomic actions of thyroid hormone. The mTOR system is also involved in the cardioprotection mechanisms and the thyroid hormones through the receptor integrin αvβ3 may play an important role that needs to be further studied. The identification of integrin αvβ3 as a plasma membrane receptor for thyroid hormones provides a new perspective on the role of these hormones in cellular defense. Analogs of thyroid hormones, inhibitors and agonists at the integrin receptor for the hormone and mTOR inhibitors are evaluated as areas of emphasis for therapeutic research.

Ahmed, R.g., Davis P., J., Davis, F.b., De Vito, P., Farias R., N., Luly, P., et al. (2013). Nongenomic actions of thyroid hormones: from basic research to clinical applications. An update. IMMUNOLOGY, ENDOCRINE & METABOLIC AGENTS IN MEDICINAL CHEMISTRY, 13, 46-59.

Nongenomic actions of thyroid hormones: from basic research to clinical applications. An update.

INCERPI, Sandra
2013-01-01

Abstract

Extranuclear or nongenomic actions of thyroid hormone are unaffected by the inhibitors of protein synthesis, their site of action has been localized at the plasma membrane, but also at the cytoplasm and organelles such as the mitochondria. This review takes into account the major advances in nongenomic effects of thyroid hormones in nervous system, immune system and cardiovascular tissue, particularly focusing on the plasma membrane receptor integrin αvβ3. In nerve cells the nongenomic effects of thyroid hormones point mainly to a direct modulation of several channels/receptors for the major neurotransmitters, even though more complex pathways have also been demonstrated. Certain neuroprotective actions have recently been described for thyronamines and this may be relevant to Alzheimer’s disease and multiple sclerosis. The immune system is also modulated nongenomically by thyroid hormones, through potentiation of the effects of cytokines such as IFN-γ or LPS, activators of STAT protein leading to activation of the mammalian target of rapamycin pathway (mTOR), a highly-conserved kinase downstream target of nongenomic actions of thyroid hormone. The mTOR system is also involved in the cardioprotection mechanisms and the thyroid hormones through the receptor integrin αvβ3 may play an important role that needs to be further studied. The identification of integrin αvβ3 as a plasma membrane receptor for thyroid hormones provides a new perspective on the role of these hormones in cellular defense. Analogs of thyroid hormones, inhibitors and agonists at the integrin receptor for the hormone and mTOR inhibitors are evaluated as areas of emphasis for therapeutic research.
2013
Ahmed, R.g., Davis P., J., Davis, F.b., De Vito, P., Farias R., N., Luly, P., et al. (2013). Nongenomic actions of thyroid hormones: from basic research to clinical applications. An update. IMMUNOLOGY, ENDOCRINE & METABOLIC AGENTS IN MEDICINAL CHEMISTRY, 13, 46-59.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/115458
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