The effects of lidocaine and procaine on microRNA expression of adipocyte-derived adult stem cells

Sung, Sang Hoon; Lee, Jeong Gil; Yu, Soo Bong; Chang, Hee Kyung; Ryu, Sie Jeong

doi:10.4097/kjae.2012.62.6.552

Cited by 12 publications

(12 citation statements)

References 29 publications

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“…Sung and coworkers investigated the relationship between MSCs and expression levels of microRNAs (miRNAs) using peptide nucleic acid (PNA)‐miRNA array analysis. This study demonstrated that lidocaine treatment of MSCs affects miRNA expression and that the effect of procaine is more significant than the one of lidocaine . The effects of lidocaine on human MSC functions have been addressed previously, but there were no studies examining their recovery following exposure .…”

Section: Discussionmentioning

confidence: 77%

“…The cytotoxicity of amide‐type local anesthetics including bupivacaine, ropivacaine, mepivacaine, and lidocaine to MSCs in both human and animal models has been reported in previous studies . However, only a few investigators have reported deleterious cytotoxic effects of varying concentrations of local anesthetics on MSCs after different exposure and assessment times . Sung and coworkers investigated the relationship between MSCs and expression levels of microRNAs (miRNAs) using peptide nucleic acid (PNA)‐miRNA array analysis.…”

Section: Discussionmentioning

confidence: 99%

“…43,44,46,47,53 However, only a few investigators have reported deleterious cytotoxic effects of varying concentrations of local anesthetics on MSCs after different exposure and assessment times. 47,54 Sung and coworkers investigated the relationship between MSCs and expression levels of microRNAs (miRNAs) using peptide nucleic acid (PNA)-miRNA array analysis. This study demonstrated that lidocaine treatment of MSCs affects miRNA expression and that the effect of procaine is more significant than the one of lidocaine.…”

Section: Discussionmentioning

confidence: 99%

“…This study demonstrated that lidocaine treatment of MSCs affects miRNA expression and that the effect of procaine is more significant than the one of lidocaine. 54 The effects of lidocaine on human MSC functions have been addressed previously, but there were no studies examining their recovery following exposure. 30 In addition, published data on changes in mRNA expression in MSCs treated with lidocaine are limited.…”

Section: Discussionmentioning

confidence: 99%

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Effect of Lidocaine on Viability and Gene Expression of Human Adipose–derived Mesenchymal Stem Cells: An in vitro Study

Nie

Kubrova

et al. 2019

PM&R

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Objective To assess the biologic effects of lidocaine on the viability, proliferation, and function of human adipose tissue–derived mesenchymal stromal/stem cells (MSCs) in vitro. Methods Adipose‐derived MSCs from three donors were exposed to lidocaine at various dilutions (2 mg/mL to 8 mg/mL) and exposure times (0.5 to 4 hours). Cell number and viability, mitochondrial activity, and real‐time reverse‐transcriptase quantitative polymerase chain reaction (RT‐qPCR) were analyzed at 0 (immediate effects) or 24 and 48 hours (recovery effects) after treatment with lidocaine. Results Trypan blue staining showed that increasing concentrations of lidocaine decreased the number of observable viable cells. 3‐[4,5,dimethylthiazol‐2‐yl]‐5‐[3‐carboxymethoxy‐phenyl]‐2‐[4‐sulfophenyl]‐2H‐tetrazolium (MTS) assays revealed a concentration‐ and time‐ dependent decline of mitochondrial activity and proliferative ability. Gene expression analysis by RT‐qPCR revealed that adipose‐derived MSCs exposed to lidocaine express robust levels of stress response/cytoprotective genes. However, higher concentrations of lidocaine caused a significant downregulation of these genes. No significant differences were observed in expression of extracellular matrix (ECM) markers COL1A1 and DCN except for COL3A1 (P < .05). Levels of messenger RNA (mRNA) for proliferation markers (CCNB2, HIST2H4A, P < .001) and MKI67 (P < .001) increased at 24 and 48 hours. Expression levels of several transcription factors— including SP1, PRRX1, and ATF1—were modulated in the same manner. MSC surface markers CD44 and CD105 demonstrated decreased expression immediately after treatment, but at 24 and 48 hours postexposure, the MSC markers showed no significant difference among groups. Conclusion Lidocaine is toxic to MSCs in a dose‐ and time‐ dependent manner. MSC exposure to high (4‐8 mg/mL) concentrations of lidocaine for prolonged periods can affect their biologic functions. Although the exposure time in vivo is short, it is essential to choose safe concentrations when applying lidocaine along with MSCs to avoid compromising the viability and potency of the stem cell therapy.

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Section: Discussionmentioning

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Effect of Lidocaine on Viability and Gene Expression of Human Adipose–derived Mesenchymal Stem Cells: An in vitro Study

Nie

Kubrova

et al. 2019

PM&R

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“…Por otra parte Harato et al (2012) establecen que bupivacaína induce apoptosis en la línea celular Neuro2a por medio de síntesis de sustancias reactivas del oxígeno (ROS) y activación de p38 MAPK. A su vez ha sido observada la citotoxicidad de lidocaína (Jacobs et al, 2011) y procaína (Park et al, 2011) en células cartilaginosas; y de bupivacaína en células madres adiposas (Sung et al, 2012).…”

Section: Autor Técnica Anestésica Estudiadaunclassified

Anestesia Local Odontológica y su Influencia en Anomalías del Desarrollo Dental: Revisión Sistemática de la Literatura

Fuentes

Curiqueo

Rivera

et al. 2015

Int. J. Odontostomat.

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Lidocaine promotes fibroblast proliferation after thermal injury via up‐regulating the expression of miR‐663 and miR‐486

Wang

et al. 2019

The Kaohsiung J of Med Scie

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Thermal burn is a complex injury that induces pronounced inflammatory reactions and destruction of the microvasculature. Lidocaine, which is broadly used for pain relief, has been reported have the capacity to modulate wound healing processes. Seventeen burn injury patients with no treatment and nine controls were included in this study. The expression of 15 candidate miRNAs in the dermis samples were detected by qRT‐PCR. The target genes were predicted using online bioinformatics tools and confirmed by dual luciferase assay and immunoblotting. The function of miR‐486 and miR‐663 on skin fibroblasts keratinocytes were determined by MTT assay and flow cytometry. The level of miR‐486 and miR‐663 was increased after burn injury, meanwhile, the highest level of miR‐486 and miR‐663 was found after lidocaine treatment. We identified that BCL2L14 was a direct target of both miR‐486 and miR‐663. Meanwhile, overexpression of miR‐486 or miR‐663 inhibit apoptosis and promoted proliferation of human skin fibroblasts keratinocytes. These results indicated that lidocaine treatment promoted the skin healing after thermal injury through up‐regulating miR‐486 and miR‐663 expression, and partially explained how lidocaine modulates wound healing processes. This may provide an evidence for the therapeutic effect of lidocaine during skin healing process. However, the underlying mechanisms need to be further unveiled.

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The effects of lidocaine and procaine on microRNA expression of adipocyte-derived adult stem cells

Cited by 12 publications

References 29 publications

Effect of Lidocaine on Viability and Gene Expression of Human Adipose–derived Mesenchymal Stem Cells: An in vitro Study

Effect of Lidocaine on Viability and Gene Expression of Human Adipose–derived Mesenchymal Stem Cells: An in vitro Study

Anestesia Local Odontológica y su Influencia en Anomalías del Desarrollo Dental: Revisión Sistemática de la Literatura

Lidocaine promotes fibroblast proliferation after thermal injury via up‐regulating the expression of miR‐663 and miR‐486

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