Supplemental hydrogen sulphide protects transplant kidney function and prolongs recipient survival after prolonged cold ischaemia–reperfusion injury by mitigating renal graft apoptosis and inflammation

What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated t...

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Published inBJU international Vol. 110; no. 11c; pp. E1187 - E1195
Main Authors Lobb, Ian, Mok, Amy, Lan, Zhu, Liu, Weihua, Garcia, Bertha, Sener, Alp
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.12.2012
Wiley Subscription Services, Inc
Subjects
Animals
Apoptosis - drug effects
Dietary Supplements
Disease Models, Animal
graft function
Graft Survival - drug effects
Hydrogen Sulfide - administration & dosage
hydrogen sulphide
Inflammation - pathology
Inflammation - prevention & control
ischaemia–reperfusion injury
Kidney - drug effects
Kidney - pathology
Kidney - surgery
Kidney Transplantation
Male
organ preservation
Organ Preservation - methods
Rats
Rats, Inbred Lew
renal transplantation
Reperfusion Injury - pathology
Reperfusion Injury - prevention & control
survival
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Abstract What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H2S in many models of tissue ischaemia–reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H2S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti‐apoptotic, anti‐inflammatory and anti‐oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H2S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H2S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H2S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H2S during preservation is protective against prolonged cold IRI. These findings suggest that H2S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation. OBJECTIVE •  To characterize the effects of hydrogen sulphide (H2S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation‐associated prolonged cold ischaemia–reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx). MATERIALS AND METHODS •  After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H2S) solution and stored for 24 h at 4 °C in the same solution. •  Recipient rats were monitored for a 14‐day time course using metabolic cages to assess various characteristics of renal graft function. •  Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis. RESULTS •  H2S‐treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW‐treated rats. •  H2S‐treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti‐apoptotic cytokine profiles. CONCLUSION •  Our results provide the first evidence that supplemental H2S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.
AbstractList What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H2S in many models of tissue ischaemia-reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H2S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti-apoptotic, anti-inflammatory and anti-oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H2S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H2S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H2S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H2S during preservation is protective against prolonged cold IRI. These findings suggest that H2S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation. OBJECTIVE * To characterize the effects of hydrogen sulphide (H2S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation-associated prolonged cold ischaemia-reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx). MATERIALS AND METHODS * After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H2S) solution and stored for 24 h at 4 °C in the same solution. * Recipient rats were monitored for a 14-day time course using metabolic cages to assess various characteristics of renal graft function. * Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis. RESULTS * H2S-treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW-treated rats. * H2S-treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti-apoptotic cytokine profiles. CONCLUSION * Our results provide the first evidence that supplemental H2S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.
What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H2S in many models of tissue ischaemia–reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H2S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti‐apoptotic, anti‐inflammatory and anti‐oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H2S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H2S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H2S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H2S during preservation is protective against prolonged cold IRI. These findings suggest that H2S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation. OBJECTIVE •  To characterize the effects of hydrogen sulphide (H2S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation‐associated prolonged cold ischaemia–reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx). MATERIALS AND METHODS •  After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H2S) solution and stored for 24 h at 4 °C in the same solution. •  Recipient rats were monitored for a 14‐day time course using metabolic cages to assess various characteristics of renal graft function. •  Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis. RESULTS •  H2S‐treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW‐treated rats. •  H2S‐treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti‐apoptotic cytokine profiles. CONCLUSION •  Our results provide the first evidence that supplemental H2S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.
What's known on the subject? and What does the study add? Hydrogen sulphide (H(2) S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H(2) S in many models of tissue ischaemia-reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H(2) S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti-apoptotic, anti-inflammatory and anti-oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H(2) S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H(2) S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H(2) S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H(2) S during preservation is protective against prolonged cold IRI. These findings suggest that H(2) S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation. • To characterize the effects of hydrogen sulphide (H(2) S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation-associated prolonged cold ischaemia-reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx). • After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H(2) S) solution and stored for 24 h at 4 °C in the same solution. • Recipient rats were monitored for a 14-day time course using metabolic cages to assess various characteristics of renal graft function. • Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis. • H(2) S-treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW-treated rats. • H(2) S-treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti-apoptotic cytokine profiles. • Our results provide the first evidence that supplemental H(2) S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.
What's known on the subject? and What does the study add? Hydrogen sulphide (H(2) S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H(2) S in many models of tissue ischaemia-reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H(2) S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti-apoptotic, anti-inflammatory and anti-oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H(2) S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H(2) S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H(2) S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H(2) S during preservation is protective against prolonged cold IRI. These findings suggest that H(2) S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation.UNLABELLEDWhat's known on the subject? and What does the study add? Hydrogen sulphide (H(2) S) has recently been classified as a member of the family of small gaseous molecules called gasotransmitters and has been found to have many important physiological functions. Several recent studies have elucidated the protective effects of H(2) S in many models of tissue ischaemia-reperfusion injury (IRI), including hepatic, myocardial, pulmonary, cerebral and renal IRI. It has previously been shown that H(2) S has a number of properties that may contribute to its protection against IRI, including vasodilatory, anti-apoptotic, anti-inflammatory and anti-oxidant effects, although the specific actions appear to vary between tissues. The few studies investigating the effects of H(2) S against renal IRI have only involved clamping of the renal pedicle to induce warm IRI. This study investigated the protective effects of H(2) S in the context of renal transplantation (RTx), which generally involves a more severe period of prolonged cold IRI. A previous study investigated the actions of H(2) S in RTx, but it was performed ex vivo and did not involve actual transplantation of donor kidneys. To our knowledge, this is the first study using a clinically relevant model of RTx to show that treatment of donor kidneys with H(2) S during preservation is protective against prolonged cold IRI. These findings suggest that H(2) S has potential utility in improving clinical organ preservation techniques and increasing the overall success of organ transplantation.• To characterize the effects of hydrogen sulphide (H(2) S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation-associated prolonged cold ischaemia-reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx).OBJECTIVE• To characterize the effects of hydrogen sulphide (H(2) S), an endogenously produced molecule recently described to have protective effects against warm ischaemic tissue injury, in mitigating transplantation-associated prolonged cold ischaemia-reperfusion injury (IRI) in a clinically applicable in vivo model of renal transplantation (RTx).• After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H(2) S) solution and stored for 24 h at 4 °C in the same solution. • Recipient rats were monitored for a 14-day time course using metabolic cages to assess various characteristics of renal graft function. • Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis.MATERIALS AND METHODS• After undergoing bilateral native nephrectomy, Lewis rats underwent RTx with kidneys that were flushed with either cold (4 °C) standard University of Wisconsin preservation solution (UW) or cold UW + 150 µM NaHS (H(2) S) solution and stored for 24 h at 4 °C in the same solution. • Recipient rats were monitored for a 14-day time course using metabolic cages to assess various characteristics of renal graft function. • Renal grafts were removed at time of death or after the rats were killed for histological, immunohistochemical and quantitative PCR analysis.• H(2) S-treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW-treated rats. • H(2) S-treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti-apoptotic cytokine profiles.RESULTS• H(2) S-treated rats exhibited immediate and significant (P < 0.05) decreases in serum creatinine levels, increased urine output and increased survival compared with UW-treated rats. • H(2) S-treated grafts showed significantly reduced glomerular and tubular necrosis and apoptosis, diminished graft neutrophil and macrophage infiltrates and a trend towards improved inflammatory and anti-apoptotic cytokine profiles.• Our results provide the first evidence that supplemental H(2) S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.CONCLUSION• Our results provide the first evidence that supplemental H(2) S can mitigate renal graft IRI incurred during transplantation and prolonged cold storage, improving early graft function and recipient survival in a clinically applicable model of RTx.
Author Mok, Amy
Liu, Weihua
Sener, Alp
Lobb, Ian
Lan, Zhu
Garcia, Bertha
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/23157304$$D View this record in MEDLINE/PubMed
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ContentType Journal Article
Copyright 2012 BJU INTERNATIONAL. NO CLAIM TO ORIGINAL US GOVERNMENT WORKS
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BJUI © 2012 BJU International
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Snippet What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous...
What's known on the subject? and What does the study add? Hydrogen sulphide (H(2) S) has recently been classified as a member of the family of small gaseous...
What's known on the subject? and What does the study add? Hydrogen sulphide (H2S) has recently been classified as a member of the family of small gaseous...
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SubjectTerms Animals
Apoptosis - drug effects
Dietary Supplements
Disease Models, Animal
graft function
Graft Survival - drug effects
Hydrogen Sulfide - administration & dosage
hydrogen sulphide
Inflammation - pathology
Inflammation - prevention & control
ischaemia–reperfusion injury
Kidney - drug effects
Kidney - pathology
Kidney - surgery
Kidney Transplantation
Male
organ preservation
Organ Preservation - methods
Rats
Rats, Inbred Lew
renal transplantation
Reperfusion Injury - pathology
Reperfusion Injury - prevention & control
survival
Title Supplemental hydrogen sulphide protects transplant kidney function and prolongs recipient survival after prolonged cold ischaemia–reperfusion injury by mitigating renal graft apoptosis and inflammation
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