Six-transmembrane protein of prostate (Stamp2) protects from diabetes and atherosclerosis in mice via anti-inflammatory mechanisms. As chronic inflammation is a hallmark of pulmonary arterial hypertension (PAH), we investigated the role of Stamp2. Stamp2 expression was substantially reduced in the lung of humans with idiopathic PAH, as well as in experimental PAH. In Stamp2-deficient mice, hypoxia modestly aggravated pulmonary vascular remodeling and right ventricular pressure compared to WT. As endothelial cell (EC) and pulmonary arterial smooth muscle cell (PASMC) phenotypes drive remodeling in PAH, we explored the role of Stamp2. Knock-down of Stamp2 in human EC neither affected apoptosis, viability, nor release of IL-6. Moreover, Stamp2 deficiency in primary PASMC did not alter mitogenic or migratory properties. As Stamp2 deficiency augmented expression of inflammatory cytokines and numbers of CD68-positive cells in the lung, actions of Stamp2 in macrophages may drive vascular remodeling. Thus, PASMC responses were assessed following treatment with conditioned media of primary Stamp2−/− or WT macrophages. Stamp2−/− supernatants induced PASMC proliferation and migration stronger compared to WT. A cytokine array revealed CXCL12, MCP-1 and IL-6 as most relevant candidates. Experiments with neutralizing antibodies confirmed the role of these cytokines in driving Stamp2’s responses. In conclusion, Stamp2 deficiency aggravates pulmonary vascular remodeling via cross-talk between macrophages and PASMC. Despite a substantial pro-inflammatory response, the hemodynamic effect of Stamp2 deficiency is modest suggesting that additional mechanisms apart from inflammation are necessary to induce severe PAH.
A poor understanding of statistical analysis has been proposed as a key reason for lack of replicability of many studies in experimental biomedicine. While several authors have demonstrated the fickleness of calculated p values based on simulations, we have experienced that such simulations are difficult to understand for many biomedical scientists and often do not lead to a sound understanding of the role of variability between random samples in statistical analysis. Therefore, we as trainees and trainers in a course of statistics for biomedical scientists have used real data from a large published study to develop a tool that allows scientists to directly experience the fickleness of p values. A tool based on a commonly used software package was developed that allows using random samples from real data. The tool is described and together with the underlying database is made available. The tool has been tested successfully in multiple other groups of biomedical scientists. It can also let trainees experience the impact of randomness, sample sizes and choice of specific statistical test on measured p values. We propose that live exercises based on real data will be more impactful in the training of biomedical scientists on statistical concepts.
Background The six-transmembrane protein of prostate (Stamp2) is a potent anti-inflammatory player in adipocytes and also in macrophages. Stamp2's actions in these cells protects from diet-induced diabetes and from atherosclerosis mice. As chronic inflammation is a hallmark of pulmonary arterial hypertension (PH), we sought to investigate the role of Stamp2 in PH. Methods and results Morphometric analyses of small pulmonary arteries after 3 weeks of chronic hypoxia (10% O2) showed aggravated pulmonary vascular remodeling in Stamp2−/− mice as compared to WT, demonstrated by a significantly reduced number of non-muscularized vessels and higher extent of fully-muscularized vessels. Consequently, right ventricular systolic pressure (RVSP, Millar catheter via right jugular vein) was significantly higher in Stamp2−/− mice (33.4±0.7 mmHg vs. 30.3±1.4, p<0.05). As endothelial (EC) and smooth muscle cells (PASMC) are critical for remodeling processes in PH, the role of Stamp2 in these cells was explored. However, siRNA-mediated knock-down of Stamp2 in human microvascular EC had no effect on apoptotic susceptibility (CellDeath Detection ELISA), or release of IL-6 (qPCR). Furthermore, Stamp2-deficiency in isolated primary PASMC had no effect on proliferation (BrdU incorporation) and chemotaxis (modified Boyden chamber). As Stamp2 deficiency promotes higher expression of inflammatory cytokines (IL6, IL1b, MCP1, TNFa, CXCL12, qPCR) and increased numbers of CD68-positive cells in the lung, actions of Stamp2 in macrophages are potentially driving vascular remodeling in PH. To test this hypothesis, PASMC proliferation and chemotaxis were assessed in response to treatment with supernatants from primary thioglycolate-elicited peritoneal Stamp2−/− or WT-macrophages. These experiments revealed that supernatants from Stamp2−/− macrophages induced PASMC proliferation and chemotaxis significantly stronger, thus providing a link between inflammatory actions in Stamp2 deficiency and vascular remodeling. To gain further insights, a cytokine array was performed with supernatants from Stamp2−/− and WT-macrophages, revealing CXCL12 as the most relevant candidate. Experiments with neutralizing antibodies confirmed the role of CXCL12 in driving Stamp2's actions on vascular remodelling processes in PASMC. Importantly, Stamp2 expression (qPCR, western blot analyses) was significantly lower in the lung of humans with idiopathic PAH (IPAH), as well as in experimental PH in rats (monocrotalin, sugen/hypoxia) and in mice (hypoxia). Conclusions Stamp2 deficiency aggravates hypoxia-induced pulmonary vascular remodeling and pulmonary hypertension in mice. On the cellular level, actions of Stamp2 in macrophages drive vascular remodelling processes in smooth muscle cells via secreted factors such as CXCL12. The finding of decreased expression of Stamp2 in human and various experimental forms of PH points towards a general protective role of Stamp2.
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