Research Progress on the Relationship between Matrix Metalloproteinases and Preterm Birth
Journal: Journal of Clinical Medicine Research DOI: 10.32629/jcmr.v5i1.1788
Abstract
Premature birth is the main cause of death in children under the age of 5, and exploring the causes of premature birth has always been a hot research topic. Among them, matrix metalloproteinases (MMPS) have been confirmed to have a certain correlation with premature birth. This article summarizes the correlation between matrix metalloproteinases and preterm birth both domestically and internationally, in order to provide reference for subsequent research.
Keywords
matrix metalloproteinases, premature birth, premature rupture of membranes at term
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[1] Zhang J, Sun K, Zhang Y. The rising preterm birth rate in China: a cause for concern[J]. Lancet Glob Health, 2021,9(9):e1179-e1180.
[2] Couceiro J, Matos I, Mendes J J, et al. Inflammatory factors, genetic variants, and predisposition for preterm birth[J]. Clin Genet, 2021,100(4):357-367.
[3] Frey H A, Klebanoff M A. The epidemiology, etiology, and costs of preterm birth[J]. Seminars in Fetal and Neonatal Medicine, 2016,21(2):68-73.
[4] Pascoe L, Burnett A C, Anderson P J. Cognitive and academic outcomes of children born extremely preterm[J]. Semin Perinatol, 2021,45(8):151480.
[5] Sharma D, Padmavathi I V, Tabatabaii S A, et al. Late preterm: a new high risk group in neonatology[J]. J Matern Fetal Neonatal Med, 2021,34(16):2717-2730.
[6] Care A, Nevitt S J, Medley N, et al. Interventions to prevent spontaneous preterm birth in women with singleton pregnancy who are at high risk: systematic review and network meta-analysis[J]. BMJ, 2022,376:e64547.
[7] N M, Am M, M Z, et al. The Effect of B(9) and B(12) Vitamins Deficiency on Hypomethylation of MMP-9 gene Promoter Among Women With Preterm Parturition[J]. Biochem Genet, 2022,60(1):336-350.
[8] Denney J M, Nelson E, Wadhwa P, et al. Cytokine profiling: variation in immune modulation with preterm birth vs. uncomplicated term birth identifies pivotal signals in pathogenesis of preterm birth[J]. J Perinat Med, 2021,49(3):299-309.
[9] Green E S, Arck P C. Pathogenesis of preterm birth: bidirectional inflammation in mother and fetus[J]. Semin Immunopathol, 2020,42(4):413-429.
[10] Short C S, Quinlan R A, Wang X, et al. Vaginal Microbiota, Genital Inflammation and Extracellular Matrix Remodelling Collagenase: MMP-9 in Pregnant Women With HIV, a Potential Preterm Birth Mechanism Warranting Further Exploration[J]. Front Cell Infect Microbiol, 2021,11:750103.
[11] Lamont R F. Spontaneous preterm labour that leads to preterm birth: An update and personal reflection[J]. Placenta, 2019,79:21-29.
[12] Ronde E, Reiss I, Hankemeier T, et al. The Potential of Metabolomic Analyses as Predictive Biomarkers of Preterm Delivery: A Systematic Review[J]. Front Endocrinol (Lausanne), 2021,12:668417.
[13] Zhang Xiaojiao, Chen Huiyue. The predictive value of mid-term cervical elastic strain rate combined with anterior cervical angle ultrasound measurement for preterm birth [J] J Pract Obstet Gynecol, 2022,38(04):274-277.
[14] Shennan A, Story L, Jacobsson B, et al. FIGO good practice recommendations on cervical cerclage for prevention of preterm birth[J]. Int J Gynaecol Obstet, 2021,155(1):19-22.
[15] Bhattacharya S, McCall S J, Woolner A. Recurrent pregnancy loss and subsequent preterm birth: association or causation[J]. Fertil Steril, 2022,117(4):820-821.
[16] Wu C Q, Nichols K, Carwana M, et al. Preterm birth after recurrent pregnancy loss: a systematic review and meta-analysis[J]. Fertility and Sterility, 2022,117(4):811-819.
[17] Lu Xun, Wang Jing, Zhang Wenwen, et al.The predictive value of late pregnancy blood NLR combined with fFN and cervical length on the risk of premature birth [J] Journal of Molecular Diagnosis and Therapy,2022,14(03):397-400.
[18] Li Xiaoye, Li Dezhong, Liu Yejun.The predictive value of interleukin and fetal fibronectin levels for preterm birth [J] Chinese Journal of Physicians, 2022,24(01):101-104.
[19] Yin N, Wang H, Zhang H, et al. IL-27 induces a pro-inflammatory response in human fetal membranes mediating preterm birth[J]. Int Immunopharmacol, 2017,50:361-369.
[20] Pandey M, Awasthi S, Baranwal S. IL-6: An endogenous activator of MMP-9 in preterm birth[J]. J Reprod Immunol, 2020,141:103147.
[21] Huang Lin, Li Qingrui. Correlation analysis between folate utilization, progesterone induced blockade factor, and serum levels of interleukin-6 with threatened preterm pregnancy outcomes [J] Chinese Medical Engineering,,2022,30(05):115-117.
[22] Timokhina E, Strizhakov A, Ibragimova S, et al. Matrix Metalloproteinases MMP-2 and MMP-9 Occupy a New Role in Severe Preeclampsia[J]. J Pregnancy, 2020,2020:8369645.
[23] Duran-Chávez J, Grandi C, Dos S R L, et al. Relationship between metalloproteinase-2 and -9 levels in plasma and vaginal secretion with preterm birth[J]. Eur J Obstet Gynecol Reprod Biol, 2021,261:217-221.
[24] Wang X, Khalil R A. Matrix Metalloproteinases, Vascular Remodeling, and Vascular Disease[J]. Adv Pharmacol, 2018,81:241-330.
[25] Vafadari B, Salamian A, Kaczmarek L. MMP-9 in translation: from molecule to brain physiology, pathology, and therapy[J]. J Neurochem, 2016,139 Suppl 2:91-114.
[26] Litwiniuk M, Radowicka M, Krejner A, et al. The MMP-9/TIMP-1 imbalance and the reduced level of TGF-β in the cervical area of amniotic membrane is a possible risk factor of PROM and premature labor — proof-of-concept study[J]. Ginekologia Polska, 2017,88(7):379-384.
[27] Jia J P, Wu J H, Hu J R. Correlations of MMP-9 and PPARγ gene polymorphisms with occurrence of preeclampsia[J]. Eur Rev Med Pharmacol Sci, 2022,26(3):771-778.
[28] Nold C, Esteves K, Jensen T, et al. Granulocyte-macrophage colony-stimulating factor initiates amniotic membrane rupture and preterm birth in a mouse model[J]. Am J Reprod Immunol, 2021,86(2):e13424.
[29] Pereza N, Pleša I, Peterlin A, et al. Functional polymorphisms of matrix metalloproteinases 1 and 9 genes in women with spontaneous preterm birth[J]. Dis Markers, 2014,2014:171036.
[30] Rood K M, Buhimschi I A, Rodewald M K, et al. Evidence for participation of neutrophil gelatinase-associated lipocalin/matrix metalloproteinase-9 (NGAL•MMP-9) complex in the inflammatory response to infection in pregnancies complicated by preterm birth[J]. Am J Reprod Immunol, 2016,76(2):108-117.
[31] Dymanowska-Dyjak I, Stupak A, Kondracka A, et al. Elastography and Metalloproteinases in Patients at High Risk of Preterm Labor[J]. J Clin Med, 2021,10(17):3886.
[32] Pandey M, Awasthi S. Role of MMP-1, MMP-8 and MMP-9 gene polymorphisms in preterm birth[J]. Journal of Genetics, 2020,99(1):2.
[33] Ren Jing The expression and role of matrix metalloproteinase 9 in premature rupture of membranes [D] China Medical University,2004.
[34] Xie Bin, Sun Zhuohao, Huang Youmin, etc The predictive value of combined detection of multiple inflammatory factors for chorioamnionitis complicated by premature rupture of membranes in parturients [J] Chinese grassroots medicine, 2021,28(04):538-542.
[2] Couceiro J, Matos I, Mendes J J, et al. Inflammatory factors, genetic variants, and predisposition for preterm birth[J]. Clin Genet, 2021,100(4):357-367.
[3] Frey H A, Klebanoff M A. The epidemiology, etiology, and costs of preterm birth[J]. Seminars in Fetal and Neonatal Medicine, 2016,21(2):68-73.
[4] Pascoe L, Burnett A C, Anderson P J. Cognitive and academic outcomes of children born extremely preterm[J]. Semin Perinatol, 2021,45(8):151480.
[5] Sharma D, Padmavathi I V, Tabatabaii S A, et al. Late preterm: a new high risk group in neonatology[J]. J Matern Fetal Neonatal Med, 2021,34(16):2717-2730.
[6] Care A, Nevitt S J, Medley N, et al. Interventions to prevent spontaneous preterm birth in women with singleton pregnancy who are at high risk: systematic review and network meta-analysis[J]. BMJ, 2022,376:e64547.
[7] N M, Am M, M Z, et al. The Effect of B(9) and B(12) Vitamins Deficiency on Hypomethylation of MMP-9 gene Promoter Among Women With Preterm Parturition[J]. Biochem Genet, 2022,60(1):336-350.
[8] Denney J M, Nelson E, Wadhwa P, et al. Cytokine profiling: variation in immune modulation with preterm birth vs. uncomplicated term birth identifies pivotal signals in pathogenesis of preterm birth[J]. J Perinat Med, 2021,49(3):299-309.
[9] Green E S, Arck P C. Pathogenesis of preterm birth: bidirectional inflammation in mother and fetus[J]. Semin Immunopathol, 2020,42(4):413-429.
[10] Short C S, Quinlan R A, Wang X, et al. Vaginal Microbiota, Genital Inflammation and Extracellular Matrix Remodelling Collagenase: MMP-9 in Pregnant Women With HIV, a Potential Preterm Birth Mechanism Warranting Further Exploration[J]. Front Cell Infect Microbiol, 2021,11:750103.
[11] Lamont R F. Spontaneous preterm labour that leads to preterm birth: An update and personal reflection[J]. Placenta, 2019,79:21-29.
[12] Ronde E, Reiss I, Hankemeier T, et al. The Potential of Metabolomic Analyses as Predictive Biomarkers of Preterm Delivery: A Systematic Review[J]. Front Endocrinol (Lausanne), 2021,12:668417.
[13] Zhang Xiaojiao, Chen Huiyue. The predictive value of mid-term cervical elastic strain rate combined with anterior cervical angle ultrasound measurement for preterm birth [J] J Pract Obstet Gynecol, 2022,38(04):274-277.
[14] Shennan A, Story L, Jacobsson B, et al. FIGO good practice recommendations on cervical cerclage for prevention of preterm birth[J]. Int J Gynaecol Obstet, 2021,155(1):19-22.
[15] Bhattacharya S, McCall S J, Woolner A. Recurrent pregnancy loss and subsequent preterm birth: association or causation[J]. Fertil Steril, 2022,117(4):820-821.
[16] Wu C Q, Nichols K, Carwana M, et al. Preterm birth after recurrent pregnancy loss: a systematic review and meta-analysis[J]. Fertility and Sterility, 2022,117(4):811-819.
[17] Lu Xun, Wang Jing, Zhang Wenwen, et al.The predictive value of late pregnancy blood NLR combined with fFN and cervical length on the risk of premature birth [J] Journal of Molecular Diagnosis and Therapy,2022,14(03):397-400.
[18] Li Xiaoye, Li Dezhong, Liu Yejun.The predictive value of interleukin and fetal fibronectin levels for preterm birth [J] Chinese Journal of Physicians, 2022,24(01):101-104.
[19] Yin N, Wang H, Zhang H, et al. IL-27 induces a pro-inflammatory response in human fetal membranes mediating preterm birth[J]. Int Immunopharmacol, 2017,50:361-369.
[20] Pandey M, Awasthi S, Baranwal S. IL-6: An endogenous activator of MMP-9 in preterm birth[J]. J Reprod Immunol, 2020,141:103147.
[21] Huang Lin, Li Qingrui. Correlation analysis between folate utilization, progesterone induced blockade factor, and serum levels of interleukin-6 with threatened preterm pregnancy outcomes [J] Chinese Medical Engineering,,2022,30(05):115-117.
[22] Timokhina E, Strizhakov A, Ibragimova S, et al. Matrix Metalloproteinases MMP-2 and MMP-9 Occupy a New Role in Severe Preeclampsia[J]. J Pregnancy, 2020,2020:8369645.
[23] Duran-Chávez J, Grandi C, Dos S R L, et al. Relationship between metalloproteinase-2 and -9 levels in plasma and vaginal secretion with preterm birth[J]. Eur J Obstet Gynecol Reprod Biol, 2021,261:217-221.
[24] Wang X, Khalil R A. Matrix Metalloproteinases, Vascular Remodeling, and Vascular Disease[J]. Adv Pharmacol, 2018,81:241-330.
[25] Vafadari B, Salamian A, Kaczmarek L. MMP-9 in translation: from molecule to brain physiology, pathology, and therapy[J]. J Neurochem, 2016,139 Suppl 2:91-114.
[26] Litwiniuk M, Radowicka M, Krejner A, et al. The MMP-9/TIMP-1 imbalance and the reduced level of TGF-β in the cervical area of amniotic membrane is a possible risk factor of PROM and premature labor — proof-of-concept study[J]. Ginekologia Polska, 2017,88(7):379-384.
[27] Jia J P, Wu J H, Hu J R. Correlations of MMP-9 and PPARγ gene polymorphisms with occurrence of preeclampsia[J]. Eur Rev Med Pharmacol Sci, 2022,26(3):771-778.
[28] Nold C, Esteves K, Jensen T, et al. Granulocyte-macrophage colony-stimulating factor initiates amniotic membrane rupture and preterm birth in a mouse model[J]. Am J Reprod Immunol, 2021,86(2):e13424.
[29] Pereza N, Pleša I, Peterlin A, et al. Functional polymorphisms of matrix metalloproteinases 1 and 9 genes in women with spontaneous preterm birth[J]. Dis Markers, 2014,2014:171036.
[30] Rood K M, Buhimschi I A, Rodewald M K, et al. Evidence for participation of neutrophil gelatinase-associated lipocalin/matrix metalloproteinase-9 (NGAL•MMP-9) complex in the inflammatory response to infection in pregnancies complicated by preterm birth[J]. Am J Reprod Immunol, 2016,76(2):108-117.
[31] Dymanowska-Dyjak I, Stupak A, Kondracka A, et al. Elastography and Metalloproteinases in Patients at High Risk of Preterm Labor[J]. J Clin Med, 2021,10(17):3886.
[32] Pandey M, Awasthi S. Role of MMP-1, MMP-8 and MMP-9 gene polymorphisms in preterm birth[J]. Journal of Genetics, 2020,99(1):2.
[33] Ren Jing The expression and role of matrix metalloproteinase 9 in premature rupture of membranes [D] China Medical University,2004.
[34] Xie Bin, Sun Zhuohao, Huang Youmin, etc The predictive value of combined detection of multiple inflammatory factors for chorioamnionitis complicated by premature rupture of membranes in parturients [J] Chinese grassroots medicine, 2021,28(04):538-542.
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