Kimberly A. Cooney scite author profile

We studied in cats the long-term effects upon resting ventilation and the ventilatory responses to CO2 breathing of destruction of neuronal cell bodies within the ventrolateral nucleus of the tractus solitarius (vl-NTS) by kainic acid (KA) injection (KAI). Animals were studied in the awake state and under pentobarbital anesthesia both before and 8 wk after stereotaxic bilateral microinjection of the vl-NTS with mock cerebrospinal fluid (CSF) (controls, n = 2) or with KA in mock CSF (KAI, n = 5). KA reduced the number of cell bodies within the vl-NTS by 75%. Under anesthesia minute ventilation (VI) was reduced by 49% after KAI, due primarily to a 54% reduction in breathing frequency (f). Four of five anesthetized KAI animals exhibited a significantly reduced (P less than 0.01) ventilatory sensitivity to inspired CO2 under anesthesia. In the awake state some KAI animals had significant changes (P less than 0.01) in ventilation; VI reduced (2 of 5), tidal volume reduced (1 of 5), f reduced (3 of 5), and inspiratory and expiratory times increased (2 of 5). Decreases in the awake ventilatory CO2 sensitivity were not significant within individual KAI animals but were significant (P less than 0.05) when considered as a group. Thus following 75% neuronal loss within the vl-NTS, rhythmic ventilation was sustained during both anesthesia and wakefulness, although f was reduced in the former state. The vl-NTS may function to set most but not all of the ventilatory sensitivity to CO2 during anesthesia and to a lesser extent during wakefulness.

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Temporal cAMP Signaling Selectivity by Natural and Synthetic MC4R Agonists

Molden

Cooney

West

et al. 2015

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The melanocortin-4 receptor (MC4R) is a G protein-coupled receptor expressed in the brain, where it controls energy balance through pathways including α-melanocyte-stimulating hormone (α-MSH)-dependent signaling. We have reported that the MC4R can exist in an active conformation that signals constitutively by increasing cAMP levels in the absence of receptor desensitization. We asked whether synthetic MC4R agonists differ in their ability to increase intracellular cAMP over time in Neuro2A cells expressing endogenous MC4R and exogenous, epitope-tagged hemagglutinin-MC4R-green fluorescent protein. By analyzing intracellular cAMP in a temporally resolved Förster resonance energy transfer assay, we show that withdrawal of α-MSH leads to a quick reversal of cAMP induction. By contrast, the synthetic agonist melanotan II (MTII) induces a cAMP signal that persists for at least 1 hour after removal of MTII from the medium and cannot be antagonized by agouti related protein. Similarly, in mHypoE-42 immortalized hypothalamic neurons, MTII, but not α-MSH, induced persistent AMP kinase signal, which occurs downstream of increased cAMP. By using a fluorescence recovery after photobleaching assay, it appears that the receptor exposed to MTII continues to signal after being internalized. Similar to MTII, the synthetic MC4R agonists, THIQ and BIM-22511, but not LY2112688, induced prolonged cAMP signaling after agonist withdrawal. However, agonist-exposed MC4R desensitized to the same extent, regardless of the ligand used and regardless of differences in receptor intracellular retention kinetics. In conclusion, α-MSH and LY2112688, when compared with MTII, THIQ, and BIM-22511, vary in the duration of the acute cAMP response, showing distinct temporal signaling selectivity, possibly linked to specific cell compartments from which cAMP signals may originate.

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Adenosine from a biologic source regulates neutrophil extracellular traps (NETs)

Cooney

Shin

et al. 2019

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Neutrophil extracellular traps (NETs) are implicated in autoimmune, thrombotic, malignant, and inflammatory diseases; however, little is known of their endogenous regulation under basal conditions. Inflammatory effects of neutrophils are modulated by extracellular purines such as adenosine (ADO) that is inhibitory or ATP that generally up‐regulates effector functions. In order to evaluate the effects of ADO on NETs, human neutrophils were isolated from peripheral venous blood from healthy donors and stimulated to make NETs. Treatment with ADO inhibited NET production as quantified by 2 methods: SYTOX green fluorescence and human neutrophil elastase (HNE)‐DNA ELISA assay. Specific ADO receptor agonist and antagonist were tested for their effects on NET production. The ADO 2A receptor (A2AR) agonist CSG21680 inhibited NETs to a similar degree as ADO, whereas the A2AR antagonist ZM241385 prevented ADO's NET‐inhibitory effects. Additionally, CD73 is a membrane bound ectonucleotidase expressed on mesenchymal stromal cells (MSCs) that allows manipulation of extracellular purines in tissues such as bone marrow. The effects of MSCs on NET formation were evaluated in coculture. MSCs reduced NET formation in a CD73‐dependent manner. These results imply that extracellular purine balance may locally regulate NETosis and may be actively modulated by stromal cells to maintain tissue homeostasis.

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Lipid stress inhibits endocytosis of melanocortin-4 receptor from modified clathrin-enriched sites and impairs receptor desensitization

Cooney

Molden

Kowalczyk

et al. 2017

Journal of Biological Chemistry

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Melanocortin-4 receptor (MC4R) is a G-protein-coupled receptor expressed in the brain's hypothalamus where it regulates energy homeostasis. MC4R agonists function to lower food intake and weight. In this respect, although obesity promotes hyperlipidemia and hypothalamic injury, MC4R agonists are nevertheless more effective to reduce food intake within hours of administration in overweight, rather than lean, mice. MC4R undergoes constitutive internalization and recycling to the plasma membrane with agonist binding inducing receptor retention along the intracellular route and, under prolonged exposure, desensitization. Here, we found that, in neuronal cells, lipid stress by exposure to elevated palmitate leaves unchanged the rate by which MC4R and transferrin receptor are constitutively excluded from the cell surface. However, lipid stress disrupted later steps of MC4R and transferrin receptor internalization to endosomes as well as traffic of agonist-occupied MC4R to lysosomes and MC4R desensitization. In the lipid-stressed cells, MC4R and clathrin were redistributed to the plasma membrane where they colocalized to sites that appeared by super-resolution microscopy to be modified and to have higher clathrin content than those of cells not exposed to elevated palmitate. The data suggest that lipid stress disrupts steps of endocytosis following MC4R localization to clathrin-coated sites and exclusion of the receptor from the extracellular medium. We conclude that increased effectiveness of MC4R agonists in obesity may be an unexpected outcome of neuronal injury with disrupted clathrin-dependent endocytosis and impaired receptor desensitization.

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