Melatonin involves hydrogen sulfide in the regulation of H+-ATPase activity, nitrogen metabolism, and ascorbate-glutathione system under chromium toxicity

Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H2S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato...

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Veröffentlicht in:	Environmental pollution (1987) Jg. 323; S. 121173
Hauptverfasser:	Khan, M. Nasir, Siddiqui, Manzer H., Mukherjee, Soumya, AlSolami, Mazen A., Alhussaen, Khalaf M., AlZuaibr, Fahad M., Siddiqui, Zahid H., Al-Amri, Abdullah A., Alsubaie, Qasi D.
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	England Elsevier Ltd 15.04.2023
Schlagworte:	agricultural productivity antioxidant activity Antioxidants - metabolism Ascorbate-glutathione system Ascorbic Acid - metabolism Ascorbic Acid - pharmacology chlorides chromium Chromium - metabolism Chromium - toxicity Cysteine electrolyte leakage Glutathione - metabolism H+-ATPase activity H-transporting ATP synthase homeostasis hydrogen sulfide Hydrogen Sulfide - metabolism Hydrogen Sulfide - pharmacology lipid peroxidation melatonin Melatonin - metabolism Melatonin - pharmacology nitrogen Nitrogen - metabolism phytochelatins pollution potassium Potassium homeostasis reactive oxygen species Reactive Oxygen Species - metabolism Seedlings sodium tetraethylammonium compounds tomatoes toxicity Cysteine Nitrogen metabolism Potassium homeostasis H+-ATPase activity Ascorbate-glutathione system H(+)-ATPase activity
ISSN:	0269-7491, 1873-6424, 1873-6424
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Abstract	Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H2S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H2S metabolism that resulted in a considerable increase in H2S. Exogenous Mel improved phytochelatins content and H+-ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K+-channel blocker) and sodium orthovanadate (H+-ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H+-ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H2S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H2S to alleviate Cr-induced impairments in tomato seedlings.
AbstractList	Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H₂S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H₂S metabolism that resulted in a considerable increase in H₂S. Exogenous Mel improved phytochelatins content and H⁺-ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K⁺-channel blocker) and sodium orthovanadate (H⁺-ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H⁺-ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H₂S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H₂S to alleviate Cr-induced impairments in tomato seedlings. Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H S metabolism that resulted in a considerable increase in H S. Exogenous Mel improved phytochelatins content and H -ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K -channel blocker) and sodium orthovanadate (H -ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H -ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H S to alleviate Cr-induced impairments in tomato seedlings. Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H2S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H2S metabolism that resulted in a considerable increase in H2S. Exogenous Mel improved phytochelatins content and H+-ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K+-channel blocker) and sodium orthovanadate (H+-ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H+-ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H2S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H2S to alleviate Cr-induced impairments in tomato seedlings. Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H2S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H2S metabolism that resulted in a considerable increase in H2S. Exogenous Mel improved phytochelatins content and H+-ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K+-channel blocker) and sodium orthovanadate (H+-ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H+-ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H2S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H2S to alleviate Cr-induced impairments in tomato seedlings.Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how melatonin (Mel) and hydrogen sulfide (H2S) regulate antioxidant defense system, potassium (K) homeostasis, and nitrogen (N) metabolism in tomato seedlings under Cr toxicity. The data reveal that application of 30 μM Mel to the seedlings treated with 25 μM Cr has a positive effect on H2S metabolism that resulted in a considerable increase in H2S. Exogenous Mel improved phytochelatins content and H+-ATPase activity with an associated increase in K content as well. Use of tetraethylammonium chloride (K+-channel blocker) and sodium orthovanadate (H+-ATPase inhibitor) showed that Mel maintained K homeostasis through regulating H+-ATPase activity under Cr toxicity. Supplementation of the stressed seedlings with Mel substantially scavenged excess reactive oxygen species (ROS) that maintained ROS homeostasis. Reduced electrolyte leakage and lipid peroxidation were additional signs of Mel's ROS scavenging effects. In addition, Mel also maintained normal functioning of nitrogen (N) metabolism and ascorbate-glutathione (AsA-GSH) system. Improved level of N fulfilled its requirement for various enzymes that have induced resilience during Cr stress. Additionally, the AsA-GSH cycle's proper operation maintained redox equilibrium, which is necessary for the biological system to function normally. Conversely, 1 mM hypotaurine (H2S scavenger) abolished the Mel-effect and again Cr-induced impairment on the above-mentioned parameters was observed even in presence of Mel. Therefore, based on the observed findings, we concluded that Mel needs endogenous H2S to alleviate Cr-induced impairments in tomato seedlings.
ArticleNumber	121173
Author	Mukherjee, Soumya Siddiqui, Manzer H. AlSolami, Mazen A. Siddiqui, Zahid H. Alhussaen, Khalaf M. Khan, M. Nasir Al-Amri, Abdullah A. Alsubaie, Qasi D. AlZuaibr, Fahad M.
Author_xml	– sequence: 1 givenname: M. Nasir surname: Khan fullname: Khan, M. Nasir email: mo.khan@ut.edu.sa organization: Department of Biology, College of Haql, University of Tabuk, Tabuk, 71491, Saudi Arabia – sequence: 2 givenname: Manzer H. surname: Siddiqui fullname: Siddiqui, Manzer H. organization: Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, 11451 Saudi Arabia – sequence: 3 givenname: Soumya surname: Mukherjee fullname: Mukherjee, Soumya organization: Department of Botany, Jangipur College, University of Kalyani, Jangipur, India – sequence: 4 givenname: Mazen A. surname: AlSolami fullname: AlSolami, Mazen A. organization: Department of Biology, College of Haql, University of Tabuk, Tabuk, 71491, Saudi Arabia – sequence: 5 givenname: Khalaf M. surname: Alhussaen fullname: Alhussaen, Khalaf M. organization: Department of Biology, College of Haql, University of Tabuk, Tabuk, 71491, Saudi Arabia – sequence: 6 givenname: Fahad M. surname: AlZuaibr fullname: AlZuaibr, Fahad M. organization: Department of Biology, Faculty of Science, University of Tabuk, Tabuk, 71491, Saudi Arabia – sequence: 7 givenname: Zahid H. surname: Siddiqui fullname: Siddiqui, Zahid H. organization: Department of Biology, Faculty of Science, University of Tabuk, Tabuk, 71491, Saudi Arabia – sequence: 8 givenname: Abdullah A. surname: Al-Amri fullname: Al-Amri, Abdullah A. organization: Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, 11451 Saudi Arabia – sequence: 9 givenname: Qasi D. surname: Alsubaie fullname: Alsubaie, Qasi D. organization: Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, 11451 Saudi Arabia
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/36740162$$D View this record in MEDLINE/PubMed
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Keywords	Cysteine Nitrogen metabolism Potassium homeostasis H+-ATPase activity Ascorbate-glutathione system H(+)-ATPase activity
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Snippet	Contamination of soils with chromium (Cr) jeopardized agriculture production globally. The current study was planned with the aim to better comprehend how...
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SubjectTerms	agricultural productivity antioxidant activity Antioxidants - metabolism Ascorbate-glutathione system Ascorbic Acid - metabolism Ascorbic Acid - pharmacology chlorides chromium Chromium - metabolism Chromium - toxicity Cysteine electrolyte leakage Glutathione - metabolism H+-ATPase activity H-transporting ATP synthase homeostasis hydrogen sulfide Hydrogen Sulfide - metabolism Hydrogen Sulfide - pharmacology lipid peroxidation melatonin Melatonin - metabolism Melatonin - pharmacology nitrogen Nitrogen - metabolism phytochelatins pollution potassium Potassium homeostasis reactive oxygen species Reactive Oxygen Species - metabolism Seedlings sodium tetraethylammonium compounds tomatoes toxicity
Title	Melatonin involves hydrogen sulfide in the regulation of H+-ATPase activity, nitrogen metabolism, and ascorbate-glutathione system under chromium toxicity
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