Leah McNally scite author profile

Multiple lines of evidence suggest that inflammation and glutamate dysfunction contribute to the pathophysiology of depression. In this review we provide an overview of how these two systems may interact. Excess levels of inflammatory mediators occur in a subgroup of depressed patients. Studies of acute experimental activation of the immune system with endotoxin and of chronic activation during interferon-α treatment show that inflammation can cause depression. Peripheral inflammation leads to microglial activation which could interfere with excitatory amino acid metabolism leading to inappropriate glutamate receptor activation. Loss of astroglia, a feature of depression, upsets the balance of anti- and pro-inflammatory mediators and further impairs the removal of excitatory amino acids. Microglia activated by excess inflammation, astroglial loss, and inappropriate glutamate receptor activation ultimately disrupt the delicate balance of neuroprotective versus neurotoxic effects in the brain, potentially leading to depression.

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Endoproteolytic Cleavage of TUG Protein Regulates GLUT4 Glucose Transporter Translocation

Bogan

Rubin

et al. 2012

Journal of Biological Chemistry

109

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Background: GLUT4 glucose transporters are trapped and sequestered intracellularly in adipocytes by TUG. Results: Insulin stimulates TUG cleavage, which separates regions of TUG that bind GLUT4 and Golgi matrix proteins. Cleavage is required for highly insulin-responsive GLUT4 translocation. Conclusion: TUG proteolysis liberates GLUT4 trapped at the Golgi matrix. Significance: Endoproteolytic cleavage is a novel biochemical mechanism for insulin action to regulate glucose uptake.

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Acetylation of TUG Protein Promotes the Accumulation of GLUT4 Glucose Transporters in an Insulin-responsive Intracellular Compartment

Belman

Bian²,

Habtemichael³

et al. 2015

Journal of Biological Chemistry

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Background: Insulin stimulates glucose uptake by triggering TUG proteolysis, which liberates intracellular storage vesicles containing GLUT4. Results: TUG acetylation modulates its interaction with Golgi matrix proteins and enhances its function to trap GLUT4 storage vesicles within unstimulated cells. SIRT2 modulates TUG acetylation and controls insulin sensitivity in vivo. Conclusion: TUG acetylation promotes GLUT4 accumulation in insulin-responsive vesicles. Significance: Nutritional status modulates insulin-stimulated glucose uptake.

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Beyond Sedlis—A novel histology-specific nomogram for predicting cervical cancer recurrence risk: An NRG/GOG ancillary analysis

Levinson¹,

Beavis²,

Purdy³

et al. 2021

Gynecologic Oncology

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Evolution of Calcium-carbonate Skeletons in the Hydractiniidae

Miglietta

McNally

Cunningham

2010

Integrative and Comparative Biology

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Biomineralization has mostly been studied in the class Anthozoa (Phylum Cnidaria), but very little is known about the evolution of the calcified skeleton in the class Hydrozoa or about the processes leading to its formation. The evolution of the calcified skeleton is here investigated in the hydrozoan family Hydractiniidae. A phylogenetic analysis of ribosomal, mitochondrial, and nuclear-protein-coding DNA sequences supported two independent origins of the calcified skeleton within the Hydractiniidae and indicates a case of parallel evolution, as suspected in the Anthozoa. Neither of the two origins of skeleton in the Hydractiniidae has led to either speciose or numerically abundant species, in contrast with other skeletonized hydrozoan families. Finally, we show that the origin of calcified skeletons in the Hydractiniidae is significantly correlated with the distribution of species with calcium carbonate granules within a polyp's gastrodermal cells. This suggests that the presence of these granules precedes the origin of a full skeleton.

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Leah McNally

Inflammation, Glutamate, and Glia in Depression:A Literature Review

Endoproteolytic Cleavage of TUG Protein Regulates GLUT4 Glucose Transporter Translocation

Acetylation of TUG Protein Promotes the Accumulation of GLUT4 Glucose Transporters in an Insulin-responsive Intracellular Compartment

Beyond Sedlis—A novel histology-specific nomogram for predicting cervical cancer recurrence risk: An NRG/GOG ancillary analysis

Evolution of Calcium-carbonate Skeletons in the Hydractiniidae

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