BACKGROUND: H(2)S synthesis inhibitors (HSSI) have been shown to impact respiratory control. For instance, the HSSI hydroxylamine (HA) decreases the respiratory discharge rate from isolated medullary sections, and HA in addition to other HSSIs propargylglycine and amino-oxyacetic acid (AOAA) have been found to reduce hypoxic responsiveness. OBJECTIVES: The aim of this study was to determine if administration of HSSIs could improve respiratory stability in an intact organism prone to recurrent central apneas. METHODS: Saline and HSSI compounds were administered to C57BL/6J mice (n = 24), a strain predisposed to recurrent central apneas, prior to measurement of hypoxic and posthypoxic ventilatory behavior. RESULTS: Administration of HA and AOAA resulted in a significantly smaller percentage of animals expressing one or more apneas during reoxygenation compared to saline control, and animals given AOAA demonstrated a smaller coefficient of variation for frequency during reoxygenation, a marker suggesting greater respiratory stability. This occurred despite varying effects of the three HSSI compounds on hypoxic ventilatory response. CONCLUSIONS: Instability and pause expression are improved by targeting H(2)S synthesis, an effect not predicted by effects on hypoxic responsiveness.
BACKGROUND:H(2)S synthesis inhibitors (HSSI) have been shown to impact respiratory control. For instance, the HSSI hydroxylamine (HA) decreases the respiratory discharge rate from isolated medullary sections, and HA in addition to other HSSIs propargylglycine and amino-oxyacetic acid (AOAA) have been found to reduce hypoxic responsiveness. OBJECTIVES: The aim of this study was to determine if administration of HSSIs could improve respiratory stability in an intact organism prone to recurrent central apneas. METHODS:Saline and HSSI compounds were administered to C57BL/6J mice (n = 24), a strain predisposed to recurrent central apneas, prior to measurement of hypoxic and posthypoxic ventilatory behavior. RESULTS: Administration of HA and AOAA resulted in a significantly smaller percentage of animals expressing one or more apneas during reoxygenation compared to saline control, and animals given AOAA demonstrated a smaller coefficient of variation for frequency during reoxygenation, a marker suggesting greater respiratory stability. This occurred despite varying effects of the three HSSI compounds on hypoxic ventilatory response. CONCLUSIONS: Instability and pause expression are improved by targeting H(2)S synthesis, an effect not predicted by effects on hypoxic responsiveness.
Authors: C Barton Gillombardo; Motoo Yamauchi; Mark D Adams; Jesse Dostal; Sam Chai; Michael W Moore; Lucas M Donovan; Fang Han; Kingman P Strohl Journal: J Appl Physiol (1985) Date: 2012-04-26
Authors: Yao Yao; Loruhama Delgado-Rivera; Hamid Samareh Afsari; Liang Yin; Gregory R J Thatcher; Terry W Moore; Lawrence W Miller Journal: Inorg Chem Date: 2017-12-27 Impact factor: 5.165