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Full-Text Articles in Amino Acids, Peptides, and Proteins
KCa2 And KCa3.1 Channels In The Airways: A New Therapeutic Target, Razan Orfali, Ali Alfaiz, Mohammad Asikur Rahman, Liz Lau, Young-Woo Nam, Miao Zhang
KCa2 And KCa3.1 Channels In The Airways: A New Therapeutic Target, Razan Orfali, Ali Alfaiz, Mohammad Asikur Rahman, Liz Lau, Young-Woo Nam, Miao Zhang
Pharmacy Faculty Articles and Research
K+ channels are involved in many critical functions in lung physiology. Recently, the family of Ca2+-activated K+ channels (KCa) has received more attention, and a massive amount of effort has been devoted to developing selective medications targeting these channels. Within the family of KCa channels, three small-conductance Ca2+-activated K+ (KCa2) channel subtypes, together with the intermediate-conductance KCa3.1 channel, are voltage-independent K+ channels, and they mediate Ca2+-induced membrane hyperpolarization. Many KCa2 channel members are involved in crucial roles in physiological and pathological …
Quantitative Phosphoproteomic Analysis Reveals Unique Camp Signaling Pools Emanating From Ac2 And Ac6 In Human Airway Smooth Muscle Cells, Isabella Cattani-Cavalieri, Yue Li, Jordyn Margolis, Amy S. Bogard, Moom R. Roosan, Rennolds S. Ostrom
Quantitative Phosphoproteomic Analysis Reveals Unique Camp Signaling Pools Emanating From Ac2 And Ac6 In Human Airway Smooth Muscle Cells, Isabella Cattani-Cavalieri, Yue Li, Jordyn Margolis, Amy S. Bogard, Moom R. Roosan, Rennolds S. Ostrom
Pharmacy Faculty Articles and Research
Human airway smooth muscle (HASM) is the primary target of ßAR agonists used to control airway hypercontractility in asthma and chronic obstructive pulmonary disease (COPD). ßAR agonists induce the production of cAMP by adenylyl cyclases (ACs), activate PKA and cause bronchodilation. Several other G-protein coupled receptors (GPCR) expressed in human airway smooth muscle cells transduce extracellular signals through cAMP but these receptors elicit different cellular responses. Some G-protein coupled receptors couple to distinct adenylyl cyclases isoforms with different localization, partly explaining this compartmentation, but little is known about the downstream networks that result. We used quantitative phosphoproteomics to define the …