Rationale: Antibiotic treatment of patients infected with G- or G+ bacteria promotes release of the toxins lipopolysaccharide and pneumolysin in their lungs. Growth Hormone-releasing Hormone agonist JI-34 protects human lung microvascular endothelial cells, expressing splice variant 1 of the receptor, from PLY-induced barrier dysfunction. We investigated whether JI-34 also blunts LPS-induced hyperpermeability. Since GHRH receptor signaling can potentially stimulate both cAMP-dependent barrier-pr…
Read moreRationale: Antibiotic treatment of patients infected with G- or G+ bacteria promotes release of the toxins lipopolysaccharide and pneumolysin in their lungs. Growth Hormone-releasing Hormone agonist JI-34 protects human lung microvascular endothelial cells, expressing splice variant 1 of the receptor, from PLY-induced barrier dysfunction. We investigated whether JI-34 also blunts LPS-induced hyperpermeability. Since GHRH receptor signaling can potentially stimulate both cAMP-dependent barrier-protective pathways as well as barrier-disruptive protein kinase C pathways, we studied their interaction in GHRH agonist-treated HL-MVEC, in the presence of PLY, by means of siRNA-mediated protein kinase A depletion. Methods: Barrier function measurements were done in HL-MVEC monolayers using Electrical Cell substrate Impedance Sensing and VE-cadherin expression by Western blotting. Capillary leak was assessed by Evans Blue dye incorporation. Cytokine generation in broncho-alveolar lavage fluid was measured by multiplex analysis. PKA and PKC-a activity were assessed by Western blotting. Results: GHRH agonist JI-34 significantly blunts LPS-induced barrier dysfunction, at least in part by preserving VE-cadherin expression, while not affecting inflammation. In addition to activating PKA, GHRH agonist also increases PKC-α activity in PLY-treated HL-MVEC. Treatment with PLY significantly decreases resistance in control siRNA-treated HL-MVEC, but does so even more in PKA-depleted monolayers. Pretreatment with GHRH agonist blunts PLY-induced permeability in control siRNA-treated HL-MVEC, but fails to improve barrier function in PKA-depleted PLY-treated monolayers. Conclusions: GHRH signaling in HL-MVEC protects from both LPS and PLY-mediated endothelial barrier dysfunction and concurrently induces a barrier-protective PKA-mediated and a barrier-disruptive PKC-a-induced pathway in the presence of PLY, the former of which dominates the latter. © 2014 Czikora, Sridhar, Gorshkov, Alieva, Kasa, Gonzales, Potapenko, Umapathy, Pillich, Rick, Block, Verin, Chakraborty, Matthay, Schally and Lucas.