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Mossakowski Medical Research Institute PAS (Polska Akademia Nauk)

Name: Raw data for the article: Role of oxidative/nitrosative stress in dysfunction of rat’s intracerebral parenchymal arterioles in low sodium environment in the presence of vasopressin
Published: 2025-04-29

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Raw data for the article: Role of oxidative/nitrosative stress in dysfunction of rat’s intracerebral parenchymal arterioles in low sodium environment in the presence of vasopressin

Version 1.0

Aleksandrowicz, Marta, 2025, "Raw data for the article: Role of oxidative/nitrosative stress in dysfunction of rat’s intracerebral parenchymal arterioles in low sodium environment in the presence of vasopressin", https://doi.org/10.18150/I7MLWB, RepOD, V1

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Description

All studies were performed on isolated rat’s intracerebral small vessels − parenchymal arterioles in low sodium environment in the presence of vasopressin, which mimics AVP-associated hyponatremia in vivo. The purpose of the present study was to investigate the mechanism of dysfunction, that is, constriction and impaired endothelial regulation of parenchymal arterioles in conditions of decreased Na⁺concentration to 121 mM and increased AVP concentration to 15pg/ml. Raw data show percentage changes in parenchymal arteriole diameter (referred to Figures 2-7), which explain the mechanisms of vascular dysfunction in a low sodium and elevated vasopressin environment. Raw data for Figure 8 show detection of superoxide anion in isolated parenchymal vessels.The results of these studies demonstrated that the dysfunction of small vessels in these conditions is associated with 1) decreased involvement of NO in maintaining the basal tone of parenchymal arterioles, 2) involvement of oxidative/nitrosative stress, activation of V_1a and ET_A/ET_B receptors. Metabolites of arachidonic acid, such as CYP450 4A-derived 20-HETE and COX-derived TXA_2, were not involved in the studied mechanisms. Administration of NO precursor, L-arginine, likewise did not improve vascular disorders observed in low sodium environment in the presence of vasopressin. The present studies revealed also increased superoxide formation in such conditions.

(2025-04-29)

Subject

Medicine, Health and Life Sciences

Keyword

cerebrovascular dysfunction, hyponatremia, parenchymal arterioles, peroxynitrite, ROS, vasopressin

License

CC BY - Creative Commons Attribution 4.0

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			Original Format Archival Format (.tab)
		raw data for Figures 2-7.tab Tabular Data - Original format: MS Excel (XLSX) - 652 B - Apr 29, 2025 - 0 Downloads License: CC BY - Creative Commons Attribution 4.0 18 Variables, 10 Observations - UNF:6:zs7xSlcb6FyiXpsJ8rTCzQ== Raw data for Figures 2-7. Percentage changes in the diameter of isolated parenchymal arterioles. Mechanism of dysfunction (constriction and impaired endothelial regulation of parenchymal arterioles) in conditions of decreased Na+ concentration to 121 mM and increased AVP concentration to 15pg/ml.	Preview Original File Format (MS Excel (XLSX)) Tab-Delimited RData Format Variable Metadata Data File Citation RIS EndNote XML BibTeX
		raw data for Figure 8.tab Tabular Data - Original format: MS Excel (XLSX) - 12.3 KB - Apr 29, 2025 - 0 Downloads License: CC BY - Creative Commons Attribution 4.0 4 Variables, 481 Observations - UNF:6:lhIelfnDPXMg3FsdXpfi6w== Raw numerical data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in physiological conditions (i.e., 144 mM Na+) and in low sodium environment (121 mM Na+) in the presence of vasopressin (15 pg/ml) .	Preview Original File Format (MS Excel (XLSX)) Tab-Delimited RData Format Variable Metadata Data File Citation RIS EndNote XML BibTeX
		Gr1N1 20x zStack-1.tif TIFF Image - 66.1 MB - Apr 29, 2025 - 0 Downloads MD5: bbb60d332018ba83492200b0d8c32cae License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in physiological conditions (vessel no. 1).	Download
		Gr1N2 20x zStack-1.tif TIFF Image - 69.1 MB - Apr 29, 2025 - 0 Downloads MD5: 688645279a79a74364335abb6cbe5908 License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in physiological conditions (vessel no. 2).	Download
		Gr1N3 20x zStack-1.tif TIFF Image - 45.1 MB - Apr 29, 2025 - 0 Downloads MD5: c43a6ebdb55a6c7bb92136855900298d License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in physiological conditions (vessel no. 3).	Download
		Gr1N4 20x zStack-1.tif TIFF Image - 66.1 MB - Apr 29, 2025 - 0 Downloads MD5: 05f72a24f6362b8185e33dc0f115748b License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in physiological conditions (vessel no. 4).	Download
		Gr3N1 20x zStack-1.tif TIFF Image - 42.1 MB - Apr 29, 2025 - 0 Downloads MD5: be4ee7aa63784a77e61244de1e1be8c8 License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in low sodium environment (121 mM Na+) in the presence of vasopressin (15 pg/ml) (vessel no.1).	Download
		Gr3N2 20x zStack-1.tif TIFF Image - 45.1 MB - Apr 29, 2025 - 1 Download MD5: cc266ca1a9313d14cc7f1a9f26d2123e License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in low sodium environment (121 mM Na+) in the presence of vasopressin (15 pg/ml) (vessel no.2).	Download
		Gr3N3 20x zStack-1.tif TIFF Image - 45.1 MB - Apr 29, 2025 - 0 Downloads MD5: aa9f105ca1d741d16453f1ae1e845565 License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in low sodium environment (121 mM Na+) in the presence of vasopressin (15 pg/ml) (vessel no. 3).	Download
		Gr3N4 20x zStack-1.tif TIFF Image - 42.1 MB - Apr 29, 2025 - 0 Downloads MD5: 9bb95c3a59b9954af3d91af674c56f6f License: CC BY - Creative Commons Attribution 4.0 Raw image data for Figure 8. Superoxide formation, assessed by the dihydroethidium (DHE) staining, in isolated rat’s parenchymal arterioles in low sodium environment (121 mM Na+) in the presence of vasopressin (15 pg/ml) (vessel no. 4).	Download

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