Comparative proteomic analysis reveals the response mechanism of freshwater leech (Whitmania pigra) under heat-stress challenge

Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat...

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Published inComparative biochemistry and physiology. Part D, Genomics & proteomics Vol. 54; p. 101406
Main Authors Wang, Shuaibing, Zheng, Xiaochuan, Wang, Quan, Wang, Aimin, Wang, Haihua, Fu, Huiyun, Kaunda, Mange, Xiong, Liangwei, Liu, Bo
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Inc 01.06.2025
Subjects
Animals
Heat stress
Heat-Shock Response
Immunity
Intestinal mucosa
Leeches - metabolism
Leeches - physiology
Proteome - metabolism
Proteomic
Proteomics
Whitmania pigra
Whitmania pigra
Heat stress
Immunity
Intestinal mucosa
Proteomic
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Abstract Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat stress have been reported so far. To identify the biomarker proteins involved in heat stress response, we performed a Tandem mass tag (TMT)-based comparative proteomic analysis on leech's intestine after exposing to 27 °C and 35 °C. The cumulative mortality in the 35 °C heat stress group increased on the third day after stress compared with the control group. Mean-while, intestinal malondialdehyde (MDA) content was significantly up-regulated whereas total antioxidant capacity (T-AOC) was significantly down-regulated. A total of 3935 proteins were identified through proteomic analysis. Heat stress resulted in 144 differential proteins; 75 were up-regulated, and 69 were down-regulated. The differential expression proteins in response to heat stress are mainly involved in calcium-binding proteins, molecular chaperones, cytoskeleton integrity, immune function and inflammation response, DNA damage and repair, ribosomal protein synthesis, stress hormones and neuro-transmitters, tumorigenesis, and apoptosis. Protein-protein network interaction analysis showed that HSP, CD8A, C3, CD63, CD81, MRPL58, MRPL15, HNRNPA1, AMBP, IGHEP1, SERPINC1, CYP3A4, ATP12A, RPS13, CaM, HSP70 binding protein, HSPA6, C4A, ANXA7, ARG1, ARG2, ATP1B, CALCA, HTR1B, and GNGT1 are the critical proteins of leeches resistance to heat stress. Our results systematically provide substantial responsive candidate proteins combating heat stress and enhance our understanding of the intrinsic response mechanisms of thermal sensitivities animal W. pigra facing heat exposure. [Display omitted] •Heat stress destroys the physiological homeostasis of leech intestine.•144 differential proteins were identified under heat-stress challenge.•The Ca2+/CaM/HSP70 pathway involved in regulation to heat stress in leeches.
AbstractList Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat stress have been reported so far. To identify the biomarker proteins involved in heat stress response, we performed a Tandem mass tag (TMT)-based comparative proteomic analysis on leech's intestine after exposing to 27 °C and 35 °C. The cumulative mortality in the 35 °C heat stress group increased on the third day after stress compared with the control group. Mean-while, intestinal malondialdehyde (MDA) content was significantly up-regulated whereas total antioxidant capacity (T-AOC) was significantly down-regulated. A total of 3935 proteins were identified through proteomic analysis. Heat stress resulted in 144 differential proteins; 75 were up-regulated, and 69 were down-regulated. The differential expression proteins in response to heat stress are mainly involved in calcium-binding proteins, molecular chaperones, cytoskeleton integrity, immune function and inflammation response, DNA damage and repair, ribosomal protein synthesis, stress hormones and neuro-transmitters, tumorigenesis, and apoptosis. Protein-protein network interaction analysis showed that HSP, CD8A, C3, CD63, CD81, MRPL58, MRPL15, HNRNPA1, AMBP, IGHEP1, SERPINC1, CYP3A4, ATP12A, RPS13, CaM, HSP70 binding protein, HSPA6, C4A, ANXA7, ARG1, ARG2, ATP1B, CALCA, HTR1B, and GNGT1 are the critical proteins of leeches resistance to heat stress. Our results systematically provide substantial responsive candidate proteins combating heat stress and enhance our understanding of the intrinsic response mechanisms of thermal sensitivities animal W. pigra facing heat exposure. [Display omitted] •Heat stress destroys the physiological homeostasis of leech intestine.•144 differential proteins were identified under heat-stress challenge.•The Ca2+/CaM/HSP70 pathway involved in regulation to heat stress in leeches.
Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat stress have been reported so far. To identify the biomarker proteins involved in heat stress response, we performed a Tandem mass tag (TMT)-based comparative proteomic analysis on leech's intestine after exposing to 27 °C and 35 °C. The cumulative mortality in the 35 °C heat stress group increased on the third day after stress compared with the control group. Mean-while, intestinal malondialdehyde (MDA) content was significantly up-regulated whereas total antioxidant capacity (T-AOC) was significantly down-regulated. A total of 3935 proteins were identified through proteomic analysis. Heat stress resulted in 144 differential proteins; 75 were up-regulated, and 69 were down-regulated. The differential expression proteins in response to heat stress are mainly involved in calcium-binding proteins, molecular chaperones, cytoskeleton integrity, immune function and inflammation response, DNA damage and repair, ribosomal protein synthesis, stress hormones and neuro-transmitters, tumorigenesis, and apoptosis. Protein-protein network interaction analysis showed that HSP, CD8A, C3, CD63, CD81, MRPL58, MRPL15, HNRNPA1, AMBP, IGHEP1, SERPINC1, CYP3A4, ATP12A, RPS13, CaM, HSP70 binding protein, HSPA6, C4A, ANXA7, ARG1, ARG2, ATP1B, CALCA, HTR1B, and GNGT1 are the critical proteins of leeches resistance to heat stress. Our results systematically provide substantial responsive candidate proteins combating heat stress and enhance our understanding of the intrinsic response mechanisms of thermal sensitivities animal W. pigra facing heat exposure.Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat stress have been reported so far. To identify the biomarker proteins involved in heat stress response, we performed a Tandem mass tag (TMT)-based comparative proteomic analysis on leech's intestine after exposing to 27 °C and 35 °C. The cumulative mortality in the 35 °C heat stress group increased on the third day after stress compared with the control group. Mean-while, intestinal malondialdehyde (MDA) content was significantly up-regulated whereas total antioxidant capacity (T-AOC) was significantly down-regulated. A total of 3935 proteins were identified through proteomic analysis. Heat stress resulted in 144 differential proteins; 75 were up-regulated, and 69 were down-regulated. The differential expression proteins in response to heat stress are mainly involved in calcium-binding proteins, molecular chaperones, cytoskeleton integrity, immune function and inflammation response, DNA damage and repair, ribosomal protein synthesis, stress hormones and neuro-transmitters, tumorigenesis, and apoptosis. Protein-protein network interaction analysis showed that HSP, CD8A, C3, CD63, CD81, MRPL58, MRPL15, HNRNPA1, AMBP, IGHEP1, SERPINC1, CYP3A4, ATP12A, RPS13, CaM, HSP70 binding protein, HSPA6, C4A, ANXA7, ARG1, ARG2, ATP1B, CALCA, HTR1B, and GNGT1 are the critical proteins of leeches resistance to heat stress. Our results systematically provide substantial responsive candidate proteins combating heat stress and enhance our understanding of the intrinsic response mechanisms of thermal sensitivities animal W. pigra facing heat exposure.
Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat stress destroys the physiological homeostasis of intestine tissue. However, no studies on the intestinal mucosa response of leech exposure to heat stress have been reported so far. To identify the biomarker proteins involved in heat stress response, we performed a Tandem mass tag (TMT)-based comparative proteomic analysis on leech's intestine after exposing to 27 °C and 35 °C. The cumulative mortality in the 35 °C heat stress group increased on the third day after stress compared with the control group. Mean-while, intestinal malondialdehyde (MDA) content was significantly up-regulated whereas total antioxidant capacity (T-AOC) was significantly down-regulated. A total of 3935 proteins were identified through proteomic analysis. Heat stress resulted in 144 differential proteins; 75 were up-regulated, and 69 were down-regulated. The differential expression proteins in response to heat stress are mainly involved in calcium-binding proteins, molecular chaperones, cytoskeleton integrity, immune function and inflammation response, DNA damage and repair, ribosomal protein synthesis, stress hormones and neuro-transmitters, tumorigenesis, and apoptosis. Protein-protein network interaction analysis showed that HSP, CD8A, C3, CD63, CD81, MRPL58, MRPL15, HNRNPA1, AMBP, IGHEP1, SERPINC1, CYP3A4, ATP12A, RPS13, CaM, HSP70 binding protein, HSPA6, C4A, ANXA7, ARG1, ARG2, ATP1B, CALCA, HTR1B, and GNGT1 are the critical proteins of leeches resistance to heat stress. Our results systematically provide substantial responsive candidate proteins combating heat stress and enhance our understanding of the intrinsic response mechanisms of thermal sensitivities animal W. pigra facing heat exposure.
ArticleNumber 101406
Author Zheng, Xiaochuan
Liu, Bo
Kaunda, Mange
Wang, Haihua
Wang, Aimin
Wang, Shuaibing
Wang, Quan
Fu, Huiyun
Xiong, Liangwei
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  givenname: Quan
  surname: Wang
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  givenname: Aimin
  surname: Wang
  fullname: Wang, Aimin
  organization: Yancheng Academy of Fishery Science, Yancheng, PR China
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  givenname: Haihua
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  organization: Jiangxi Institute of Fisheries Sciences, Nanchang, PR China
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  givenname: Mange
  surname: Kaunda
  fullname: Kaunda, Mange
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  givenname: Liangwei
  surname: Xiong
  fullname: Xiong, Liangwei
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  email: liub@ffrc.cn
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Keywords Whitmania pigra
Heat stress
Immunity
Intestinal mucosa
Proteomic
Language English
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Snippet Temperature is an environmental parameter that remarkably affects the survival and organism health of poikilothermal animal-Whitmania pigra Whitman. Heat...
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StartPage 101406
SubjectTerms Animals
Heat stress
Heat-Shock Response
Immunity
Intestinal mucosa
Leeches - metabolism
Leeches - physiology
Proteome - metabolism
Proteomic
Proteomics
Whitmania pigra
Title Comparative proteomic analysis reveals the response mechanism of freshwater leech (Whitmania pigra) under heat-stress challenge
URI https://dx.doi.org/10.1016/j.cbd.2024.101406
https://www.ncbi.nlm.nih.gov/pubmed/39729945
https://www.proquest.com/docview/3149757863
Volume 54
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