MicroRNA expression and protein acetylation pattern in respiratory and limb muscles of Parp-1−/− and Parp-2−/− mice with lung cancer cachexia
Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that musc...
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| Published in | Biochimica et biophysica acta Vol. 1850; no. 12; pp. 2530 - 2543 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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Netherlands
Elsevier B.V
01.12.2015
Elsevier |
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| Abstract | Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1−/− and Parp-2−/− mice.
Body and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1−/− and Parp-2−/− mice.
Compared to WT cachectic animals, in both respiratory and limb muscles of Parp-1−/− and Parp-2−/− cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1−/− mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased.
These molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1−/− and Parp-2−/− cachectic mice.
PARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings.
[Display omitted]
•Current treatment options for cachexia are limited•Muscle-enriched microRNAs and protein acetylation contribute to muscle wasting•Poly(ADP-ribose) polymerases (PARP) may play a role in muscle metabolism•MicroRNA and protein acetylation levels improved in diaphragm and gastrocnemius in Parp-1–/– and Parp-2–/– lung cancer cachectic mice•PARP-1 and -2 are involved in cancer-induced cachexia in respiratory and limb muscles |
|---|---|
| AbstractList | Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1(−/−) and Parp-2(−/−) mice.
Body and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1(−/−) and Parp-2−/− mice.
Compared to WT cachectic animals, in both respiratory and limb muscles of Parp-1(−/−) and Parp-2(−/−) cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1(−/−) mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased.
These molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1(−/−) and Parp-2(−/−) cachectic mice.
PARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings. BACKGROUNDCurrent treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1(−/−) and Parp-2(−/−) mice.METHODSBody and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1(−/−) and Parp-2−/− mice.RESULTSCompared to WT cachectic animals, in both respiratory and limb muscles of Parp-1(−/−) and Parp-2(−/−) cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1(−/−) mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased.CONCLUSIONSThese molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1(−/−) and Parp-2(−/−) cachectic mice.GENERAL SIGNIFICANCEPARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings. BACKGROUND: Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1(−/−) and Parp-2(−/−) mice. METHODS: Body and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1(−/−) and Parp-2−/− mice. RESULTS: Compared to WT cachectic animals, in both respiratory and limb muscles of Parp-1(−/−) and Parp-2(−/−) cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1(−/−) mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased. CONCLUSIONS: These molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1(−/−) and Parp-2(−/−) cachectic mice. GENERAL SIGNIFICANCE: PARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings. This study has been supported by CIBERES, FIS 11/02029, FIS 14/00713; SEPAR 2013; FUCAP 2011; FUCAP 2012, and Fundació La Marató de TV3 (2013-4130). Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1−/− and Parp-2−/− mice.Body and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1−/− and Parp-2−/− mice.Compared to WT cachectic animals, in both respiratory and limb muscles of Parp-1−/− and Parp-2−/− cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1−/− mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased.These molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1−/− and Parp-2−/− cachectic mice.PARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings. Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle wasting including lung cancer (LC) cachexia. Poly(ADP-ribose) polymerases (PARP) are involved in muscle metabolism. We hypothesized that muscle-enriched microRNA, protein hyperacetylation, and expression levels of myogenic transcription factors (MTFs) and downstream targets, muscle loss and function improve in LC cachectic Parp-1−/− and Parp-2−/− mice. Body and muscle weights, grip strength, muscle phenotype, muscle-enriched microRNAs (miR-1, -133, -206, and -486), protein acetylation, acetylated levels of FoxO1, FoxO3, and PGC-1α, histone deacetylases (HDACs) including SIRT1, MTFs, and downstream targets (α-actin, PGC-1α, and creatine kinase) were evaluated in diaphragm and gastrocnemius of LC (LP07 adenocarcinoma) wild type (WT), Parp-1−/− and Parp-2−/− mice. Compared to WT cachectic animals, in both respiratory and limb muscles of Parp-1−/− and Parp-2−/− cachectic mice: downregulation of muscle-specific microRNAs was counterbalanced especially in gastrocnemius of Parp-1−/− mice; increased protein acetylation was attenuated (improvement in HDAC3, SIRT-1, and acetylated FoxO3 levels in both muscles, acetylated FoxO1 levels in the diaphragm); reduced MTFs and creatine kinase levels were mitigated; body and muscle weights, strength, and muscle fiber sizes improved, while tumor weight and growth decreased. These molecular findings may explain the improvements seen in body and muscle weights, limb muscle force and fiber sizes in both Parp-1−/− and Parp-2−/− cachectic mice. PARP-1 and -2 play a role in cancer-induced cachexia, thus selective pharmacological inhibition of PARP-1 and -2 may be of interest in clinical settings. [Display omitted] •Current treatment options for cachexia are limited•Muscle-enriched microRNAs and protein acetylation contribute to muscle wasting•Poly(ADP-ribose) polymerases (PARP) may play a role in muscle metabolism•MicroRNA and protein acetylation levels improved in diaphragm and gastrocnemius in Parp-1–/– and Parp-2–/– lung cancer cachectic mice•PARP-1 and -2 are involved in cancer-induced cachexia in respiratory and limb muscles |
| Author | Barreiro, Esther Fermoselle, Clara Yelamos, Jose Chacon-Cabrera, Alba Salmela, Ida |
| Author_xml | – sequence: 1 givenname: Alba surname: Chacon-Cabrera fullname: Chacon-Cabrera, Alba organization: Pulmonology Department—Lung Cancer Research Group, IMIM-Hospital del Mar, Parc de Salut Mar, Health and Experimental Sciences Department (CEXS), Universitat Pompeu Fabra (UPF), Barcelona Biomedical Research Park (PRBB), C/ Dr. Aiguader, 88, Barcelona E-08003, Spain – sequence: 2 givenname: Clara surname: Fermoselle fullname: Fermoselle, Clara organization: Pulmonology Department—Lung Cancer Research Group, IMIM-Hospital del Mar, Parc de Salut Mar, Health and Experimental Sciences Department (CEXS), Universitat Pompeu Fabra (UPF), Barcelona Biomedical Research Park (PRBB), C/ Dr. Aiguader, 88, Barcelona E-08003, Spain – sequence: 3 givenname: Ida surname: Salmela fullname: Salmela, Ida organization: Department of Biosciences, Division of Genetics, University of Helsinki, Helsinki, Finland – sequence: 4 givenname: Jose surname: Yelamos fullname: Yelamos, Jose organization: Cancer Research Program, Hospital del Mar Medical Research Institute (IMIM), Barcelona, Spain – sequence: 5 givenname: Esther surname: Barreiro fullname: Barreiro, Esther email: ebarreiro@imim.es organization: Pulmonology Department—Lung Cancer Research Group, IMIM-Hospital del Mar, Parc de Salut Mar, Health and Experimental Sciences Department (CEXS), Universitat Pompeu Fabra (UPF), Barcelona Biomedical Research Park (PRBB), C/ Dr. Aiguader, 88, Barcelona E-08003, Spain |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/26432600$$D View this record in MEDLINE/PubMed |
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| Keywords | Protein hyperacetylation Myogenic transcription factors Cancer-induced cachexia Parp-1−/− and Parp-2−/− mice Muscle structure and function Muscle-enriched microRNAs Parp-1(−/−) and Parp-2(−/−) mice |
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| Snippet | Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved in muscle... BACKGROUNDCurrent treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are involved... BACKGROUND: Current treatment options for cachexia, which impairs disease prognosis, are limited. Muscle-enriched microRNAs and protein acetylation are... |
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| SubjectTerms | Acetylation actin adenocarcinoma Animals cachexia Cachexia - genetics Cachexia - metabolism Cancer-induced cachexia Caquèxia creatine kinase Càncer diaphragm gene expression regulation histone deacetylase lung neoplasms Lung Neoplasms - genetics Lung Neoplasms - metabolism Mice Mice, Inbred BALB C Mice, Knockout microRNA MicroRNAs - genetics muscle fibers Muscle structure and function Muscle-enriched microRNAs Myogenic transcription factors Parp-1−/− and Parp-2−/− mice phenotype physical activity Poly (ADP-Ribose) Polymerase-1 Poly(ADP-ribose) Polymerases - genetics Poly(ADP-ribose) Polymerases - metabolism prognosis Protein hyperacetylation protein synthesis Pulmons transcription factors |
| Title | MicroRNA expression and protein acetylation pattern in respiratory and limb muscles of Parp-1−/− and Parp-2−/− mice with lung cancer cachexia |
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