DNA primase polypeptide 1 (PRIM1) involves in estrogen‐induced breast cancer formation through activation of the G2/M cell cycle checkpoint

The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real‐time PCR analysis. Xenografted tumor model was established to study...

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Published inInternational journal of cancer Vol. 144; no. 3; pp. 615 - 630
Main Authors Lee, Wei‐Hwa, Chen, Li‐Ching, Lee, Chia‐Jung, Huang, Chi‐Cheng, Ho, Yuan‐Soon, Yang, Po‐Sheng, Ho, Chi‐Tang, Chang, Hang‐Lung, Lin, I‐Hsuan, Chang, Hui‐Wen, Liu, Yun‐Ru, Wu, Chih‐Hsiung, Tu, Shih‐Hsin
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.02.2019
Wiley Subscription Services, Inc
Subjects
Breast cancer
Cancer
cancer prevention
Cell cycle
Copy number
Deoxyribonucleic acid
DNA
DNA biosynthesis
DNA primase
DNA primase polypeptide 1
Estrogen receptors
Gene expression
inotilone
Medical research
Okazaki fragments
Polypeptides
Primase
Primers
siRNA
Therapeutic applications
Tumors
Xenografts
breast cancer
inotilone
cancer prevention
DNA primase polypeptide 1
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Abstract The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real‐time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 103/μg) expression was 4.7‐fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40‐fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER− (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1‐siRNA in the ER+ BT‐474 cells‐xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti‐tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT‐474‐xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose. What's new? Breast cancer formation is a gradual process that arises due to uncontrolled DNA replication in the initial stages. Here the authors find that PRIM1, the smallest subunit of the DNA primase complex responsible for synthesizing small RNA primers during DNA replication, was upregulated in breast cancer samples as compared to healthy tissue. PRIM1 levels negatively correlated with survival in women with estrogen‐positive breast cancer, indicating potential prognostic value of measuring PRIM1 levels in future clinical applications.
AbstractList The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real‐time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 103/μg) expression was 4.7‐fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40‐fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER− (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1‐siRNA in the ER+ BT‐474 cells‐xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti‐tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT‐474‐xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose.
The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real‐time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 10 3 /μg) expression was 4.7‐fold higher in tumors than in normal tissue (* p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40‐fold) in poorly differentiated tumor tissues ( n = 46) compared with more highly differentiated tumors tissues ( n = 10) (* p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER− ( n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1‐siRNA in the ER+ BT‐474 cells‐xenograft tumors significantly reduced tumor volume in SCID mice (* p = 0.005). The anti‐tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT‐474‐xenografted tumor growth volume compared with control ( n =5 per group, * p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose. What's new? Breast cancer formation is a gradual process that arises due to uncontrolled DNA replication in the initial stages. Here the authors find that PRIM1, the smallest subunit of the DNA primase complex responsible for synthesizing small RNA primers during DNA replication, was upregulated in breast cancer samples as compared to healthy tissue. PRIM1 levels negatively correlated with survival in women with estrogen‐positive breast cancer, indicating potential prognostic value of measuring PRIM1 levels in future clinical applications.
The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real-time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 103 /μg) expression was 4.7-fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40-fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER- (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1-siRNA in the ER+ BT-474 cells-xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti-tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT-474-xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose.The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real-time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 103 /μg) expression was 4.7-fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40-fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER- (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1-siRNA in the ER+ BT-474 cells-xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti-tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT-474-xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose.
The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real‐time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 103/μg) expression was 4.7‐fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40‐fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER− (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1‐siRNA in the ER+ BT‐474 cells‐xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti‐tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT‐474‐xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose. What's new? Breast cancer formation is a gradual process that arises due to uncontrolled DNA replication in the initial stages. Here the authors find that PRIM1, the smallest subunit of the DNA primase complex responsible for synthesizing small RNA primers during DNA replication, was upregulated in breast cancer samples as compared to healthy tissue. PRIM1 levels negatively correlated with survival in women with estrogen‐positive breast cancer, indicating potential prognostic value of measuring PRIM1 levels in future clinical applications.
The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication. PRIM1 mRNA expression levels in breast tumor samples were detected by real-time PCR analysis. Xenografted tumor model was established to study the carcinogenic role of PRIM1 and its potential therapeutic applications. The average PRIM1 mRNA (copy number × 10 /μg) expression was 4.7-fold higher in tumors than in normal tissue (*p = 0.005, n = 254). PRIM1 was detected preferentially at a higher level (>40-fold) in poorly differentiated tumor tissues (n = 46) compared with more highly differentiated tumors tissues (n = 10) (*p = 0.005). Poor overall survival rate was correlated to the estrogen receptor positive (ER+, n = 20) patients with higher PRIM1 expression when compare to the ER- (n = 10) patients (Chi Square test, p = 0.03). Stable expression of PRIM1-siRNA in the ER+ BT-474 cells-xenograft tumors significantly reduced tumor volume in SCID mice (*p = 0.005). The anti-tumoral effects of inotilone isolated from Phellinus linteus was tested and had significant effects on the inhibition of PRIM1 protein expression in ER+ breast cancer cells. In vivo study was performed by administering inotilone (10 mg/kg, twice a week for 6 weeks), which resulted in significantly reduced BT-474-xenografted tumor growth volume compared with control (n =5 per group, *p < 0.05). This study provides evidences for the prognostic effects of PRIM1 with poor overall survival rate in the ER+ patients and will be valuable to test for therapeutic purpose.
Author Huang, Chi‐Cheng
Chang, Hang‐Lung
Ho, Chi‐Tang
Tu, Shih‐Hsin
Liu, Yun‐Ru
Lee, Wei‐Hwa
Chang, Hui‐Wen
Yang, Po‐Sheng
Chen, Li‐Ching
Wu, Chih‐Hsiung
Ho, Yuan‐Soon
Lin, I‐Hsuan
Lee, Chia‐Jung
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/30097999$$D View this record in MEDLINE/PubMed
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Keywords breast cancer
inotilone
cancer prevention
DNA primase polypeptide 1
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2010; 58
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Snippet The DNA primase polypeptide 1 (PRIM1) is responsible for synthesizing small RNA primers for Okazaki fragments generated during discontinuous DNA replication....
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SubjectTerms Breast cancer
Cancer
cancer prevention
Cell cycle
Copy number
Deoxyribonucleic acid
DNA
DNA biosynthesis
DNA primase
DNA primase polypeptide 1
Estrogen receptors
Gene expression
inotilone
Medical research
Okazaki fragments
Polypeptides
Primase
Primers
siRNA
Therapeutic applications
Tumors
Xenografts
Title DNA primase polypeptide 1 (PRIM1) involves in estrogen‐induced breast cancer formation through activation of the G2/M cell cycle checkpoint
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fijc.31788
https://www.ncbi.nlm.nih.gov/pubmed/30097999
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