Publication:
Combating sars-cov-2 through lipoxins, proteasome, caveolin and nuclear factor-κb pathways in non-pregnant and pregnant populations

Simple item page
dc.contributor.authorÇelik, Önder
dc.contributor.authorÇelik, Nilüfer Yiǧit
dc.contributor.authorAydin, Süleyman
dc.contributor.authorBaysal, Bora
dc.contributor.authorAydin, Suna
dc.contributor.authorSaǧlam, Aylin
dc.contributor.authorGursu, Yagmur
dc.contributor.authorDalkılıç, Semih
dc.contributor.authorUlaş, Mustafa
dc.contributor.authorOzcil, Mustafa Dogan
dc.contributor.institutionÇelik, Önder, Private Clinic Obstetrics and Gynecology, Usak, Turkey
dc.contributor.institutionÇelik, Nilüfer Yiǧit, Department of Biochemistry, Dr. Behçet Uz Children Research and Training Hospital, Izmir, Turkey
dc.contributor.institutionAydin, Süleyman, Department of Medical Biochemistry, Firat Üniversitesi Tip Fakültesi, Elazig, Turkey
dc.contributor.institutionBaysal, Bora, Department of Neonatology, Usak University, Usak, Turkey
dc.contributor.institutionAydin, Suna, Department of Cardiovascular Surgery, Fethi Sekin City Hospital, Elazig, Turkey
dc.contributor.institutionSaǧlam, Aylin, Department of Obstetrics and Gynecology, Aksaray Üniversitesi, Aksaray, Turkey
dc.contributor.institutionGursu, Yagmur, Department of Family Medicine, Bezmi Alem University, Istanbul, Turkey
dc.contributor.institutionDalkılıç, Semih, Department of Molecular Biology and Genetics, Firat Üniversitesi, Elazig, Turkey
dc.contributor.institutionUlaş, Mustafa, Department of Physiology, Firat Üniversitesi Tip Fakültesi, Elazig, Turkey
dc.contributor.institutionOzcil, Mustafa Dogan, Department of Obstetrics and Gynecology, Mustafa Kemal Üniversitesi, Antakya, Turkey
dc.date.accessioned2025-10-05T15:47:36Z
dc.date.issued2020
dc.description.abstractIt can be misleading to think that the new severe acute respiratory syndrome coronavirus (SARS-CoV2) which has a very strong mutation and adaptation capabilities, uses only the angiotensin-converting enzyme II (ACE2) pathway to reach target cells. Despite all the precautions taken, the pandemic attack continues and the rapid increase in the number of deaths suggest that this virus has entered the cell through different pathways and caused damage through different mechanisms. The main reason why the ACE2 pathway comes to the fore in all scientific studies is that this receptor is located at the entry point of basic mechanisms that provide alveolo-capillary homeostasis. SARS-CoV-2 has to use nuclear factor-κB (NF-kB), caveloae, clathrin, lipoxin, serine protease and proteasome pathways in addition to ACE2 to enter the target cell and initiate damage. For this reason, while new drug development studies are continuing, in order to be beneficial to patients in their acute period, it is imperative that we are able to come up with drugs that activate or inhibit these pathways and are currently in clinical use. It is also critical that we adopt these new pathways to the treatment of pregnant women affected by SARS-CoV-2, based on the scientific data we use to treat the general population. © 2021 Elsevier B.V., All rights reserved.
dc.identifier.doi10.14715/cmb/2020.66.3.36
dc.identifier.endpage229
dc.identifier.issn01455680
dc.identifier.issn1165158X
dc.identifier.issue3
dc.identifier.pubmed32538775
dc.identifier.scopus2-s2.0-85086622598
dc.identifier.startpage221
dc.identifier.urihttps://doi.org/10.14715/cmb/2020.66.3.36
dc.identifier.urihttps://hdl.handle.net/20.500.14719/10433
dc.identifier.volume66
dc.language.isoen
dc.publisherCellular and Molecular Biology Association
dc.relation.oastatusAll Open Access
dc.relation.oastatusHybrid Gold Open Access
dc.relation.sourceCellular and Molecular Biology
dc.subject.authorkeywordsAce2
dc.subject.authorkeywordsLipoxin
dc.subject.authorkeywordsNuclear Factor-κb
dc.subject.authorkeywordsOff Label Drugs
dc.subject.authorkeywordsProteasome
dc.subject.authorkeywordsSars-cov-2
dc.subject.authorkeywordsSerine Protease
dc.subject.authorkeywordsViral Entry Pathways
dc.subject.authorkeywordsAngiotensin
dc.subject.authorkeywordsAscorbic Acid
dc.subject.authorkeywordsBeta1a Interferon
dc.subject.authorkeywordsDornase Alfa
dc.subject.authorkeywordsNitric Oxide
dc.subject.authorkeywordsProteasome
dc.subject.authorkeywordsSarilumab
dc.subject.authorkeywordsTocilizumab
dc.subject.authorkeywordsDipeptidyl Carboxypeptidase
dc.subject.authorkeywordsProprotein Convertase 9
dc.subject.authorkeywordsSerine Protease Htra1
dc.subject.authorkeywordsSerine Proteinase
dc.subject.authorkeywordsAce2 Protein, Human
dc.subject.authorkeywordsAngiotensin Ii Type 1 Receptor Blockers
dc.subject.authorkeywordsAngiotensin-converting Enzyme 2
dc.subject.authorkeywordsAnticholesteremic Agents
dc.subject.authorkeywordsCav1 Protein, Human
dc.subject.authorkeywordsCaveolin 1
dc.subject.authorkeywordsLipoxins
dc.subject.authorkeywordsNf-kappa B
dc.subject.authorkeywordsPeptidyl-dipeptidase A
dc.subject.authorkeywordsProteasome Endopeptidase Complex
dc.subject.authorkeywordsProteasome Inhibitors
dc.subject.authorkeywordsSerine Endopeptidases
dc.subject.authorkeywordsSerine Proteinase Inhibitors
dc.subject.authorkeywordsTransmembrane Serine Protease 2, Human
dc.subject.authorkeywordsAngiotensin
dc.subject.authorkeywordsAngiotensin Converting Enzyme 2
dc.subject.authorkeywordsAngiotensin Receptor Antagonist
dc.subject.authorkeywordsAntiparasitic Agent
dc.subject.authorkeywordsAscorbic Acid
dc.subject.authorkeywordsBeta1a Interferon
dc.subject.authorkeywordsCaveolin
dc.subject.authorkeywordsClathrin
dc.subject.authorkeywordsDornase Alfa
dc.subject.authorkeywordsImmunoglobulin Enhancer Binding Protein
dc.subject.authorkeywordsLipoxin
dc.subject.authorkeywordsMas Receptor
dc.subject.authorkeywordsNeutralizing Antibody
dc.subject.authorkeywordsNitric Oxide
dc.subject.authorkeywordsP21 Activated Kinase 1
dc.subject.authorkeywordsProteasome
dc.subject.authorkeywordsRecombinant Angiotensin Converting Enzyme 2
dc.subject.authorkeywordsSarilumab
dc.subject.authorkeywordsTocilizumab
dc.subject.authorkeywordsTransmembrane Protease Serine 2
dc.subject.authorkeywordsViral Protein
dc.subject.authorkeywordsVitronectin
dc.subject.authorkeywordsAce2 Protein, Human
dc.subject.authorkeywordsAngiotensin 1 Receptor Antagonist
dc.subject.authorkeywordsCav1 Protein, Human
dc.subject.authorkeywordsCaveolin 1
dc.subject.authorkeywordsDipeptidyl Carboxypeptidase
dc.subject.authorkeywordsHypocholesterolemic Agent
dc.subject.authorkeywordsProteasome Inhibitor
dc.subject.authorkeywordsSerine Proteinase
dc.subject.authorkeywordsSerine Proteinase Inhibitor
dc.subject.authorkeywordsTransmembrane Serine Protease 2, Human
dc.subject.authorkeywordsAcute Lung Injury
dc.subject.authorkeywordsArticle
dc.subject.authorkeywordsCaveola
dc.subject.authorkeywordsCoronavirus Disease 2019
dc.subject.authorkeywordsDietary Supplement
dc.subject.authorkeywordsDrug Development
dc.subject.authorkeywordsDrug Megadose
dc.subject.authorkeywordsEndocytosis
dc.subject.authorkeywordsEndosomal Ph
dc.subject.authorkeywordsEpidemic
dc.subject.authorkeywordsFemale
dc.subject.authorkeywordsHuman
dc.subject.authorkeywordsInfection Sensitivity
dc.subject.authorkeywordsLung Injury
dc.subject.authorkeywordsMesenchymal Stem Cell
dc.subject.authorkeywordsNf Kb Signaling
dc.subject.authorkeywordsNonhuman
dc.subject.authorkeywordsPluristem Allogenic Placental Expanded Cell
dc.subject.authorkeywordsPregnancy
dc.subject.authorkeywordsPregnant Woman
dc.subject.authorkeywordsSevere Acute Respiratory Syndrome Coronavirus 2
dc.subject.authorkeywordsStem Cell Transplantation
dc.subject.authorkeywordsStroma Cell
dc.subject.authorkeywordsStromal Vascular Fraction
dc.subject.authorkeywordsVirus Entry
dc.subject.authorkeywordsVirus Infection
dc.subject.authorkeywordsBetacoronavirus
dc.subject.authorkeywordsBinding Site
dc.subject.authorkeywordsCoronavirus Infection
dc.subject.authorkeywordsDrug Repositioning
dc.subject.authorkeywordsMetabolism
dc.subject.authorkeywordsOff Label Drug Use
dc.subject.authorkeywordsPandemic
dc.subject.authorkeywordsPregnancy Complication
dc.subject.authorkeywordsPrevention And Control
dc.subject.authorkeywordsProcedures
dc.subject.authorkeywordsVertical Transmission
dc.subject.authorkeywordsVirology
dc.subject.authorkeywordsVirus Pneumonia
dc.subject.authorkeywordsAngiotensin Ii Type 1 Receptor Blockers
dc.subject.authorkeywordsAngiotensin-converting Enzyme 2
dc.subject.authorkeywordsAnticholesteremic Agents
dc.subject.authorkeywordsBinding Sites
dc.subject.authorkeywordsCaveolin 1
dc.subject.authorkeywordsCoronavirus Infections
dc.subject.authorkeywordsCovid-19
dc.subject.authorkeywordsDrug Discovery
dc.subject.authorkeywordsDrug Repositioning
dc.subject.authorkeywordsFemale
dc.subject.authorkeywordsHumans
dc.subject.authorkeywordsInfectious Disease Transmission, Vertical
dc.subject.authorkeywordsLipoxins
dc.subject.authorkeywordsNf-kappa B
dc.subject.authorkeywordsOff-label Use
dc.subject.authorkeywordsPandemics
dc.subject.authorkeywordsPeptidyl-dipeptidase A
dc.subject.authorkeywordsPneumonia, Viral
dc.subject.authorkeywordsPregnancy
dc.subject.authorkeywordsPregnancy Complications, Infectious
dc.subject.authorkeywordsProteasome Endopeptidase Complex
dc.subject.authorkeywordsProteasome Inhibitors
dc.subject.authorkeywordsSars-cov-2
dc.subject.authorkeywordsSerine Endopeptidases
dc.subject.authorkeywordsSerine Proteinase Inhibitors
dc.subject.authorkeywordsVirus Internalization
dc.subject.indexkeywordsangiotensin
dc.subject.indexkeywordsangiotensin converting enzyme 2
dc.subject.indexkeywordsangiotensin receptor antagonist
dc.subject.indexkeywordsantiparasitic agent
dc.subject.indexkeywordsascorbic acid
dc.subject.indexkeywordsbeta1a interferon
dc.subject.indexkeywordscaveolin
dc.subject.indexkeywordsclathrin
dc.subject.indexkeywordsdornase alfa
dc.subject.indexkeywordsimmunoglobulin enhancer binding protein
dc.subject.indexkeywordslipoxin
dc.subject.indexkeywordsMAS receptor
dc.subject.indexkeywordsneutralizing antibody
dc.subject.indexkeywordsnitric oxide
dc.subject.indexkeywordsp21 activated kinase 1
dc.subject.indexkeywordsproteasome
dc.subject.indexkeywordsrecombinant angiotensin converting enzyme 2
dc.subject.indexkeywordssarilumab
dc.subject.indexkeywordstocilizumab
dc.subject.indexkeywordstransmembrane protease serine 2
dc.subject.indexkeywordsviral protein
dc.subject.indexkeywordsvitronectin
dc.subject.indexkeywordsACE2 protein, human
dc.subject.indexkeywordsangiotensin 1 receptor antagonist
dc.subject.indexkeywordsCAV1 protein, human
dc.subject.indexkeywordscaveolin 1
dc.subject.indexkeywordsdipeptidyl carboxypeptidase
dc.subject.indexkeywordshypocholesterolemic agent
dc.subject.indexkeywordsproteasome inhibitor
dc.subject.indexkeywordsserine proteinase
dc.subject.indexkeywordsserine proteinase inhibitor
dc.subject.indexkeywordstransmembrane serine protease 2, human
dc.subject.indexkeywordsacute lung injury
dc.subject.indexkeywordsArticle
dc.subject.indexkeywordscaveola
dc.subject.indexkeywordscoronavirus disease 2019
dc.subject.indexkeywordsdietary supplement
dc.subject.indexkeywordsdrug development
dc.subject.indexkeywordsdrug megadose
dc.subject.indexkeywordsendocytosis
dc.subject.indexkeywordsendosomal pH
dc.subject.indexkeywordsepidemic
dc.subject.indexkeywordsfemale
dc.subject.indexkeywordshuman
dc.subject.indexkeywordsinfection sensitivity
dc.subject.indexkeywordslung injury
dc.subject.indexkeywordsmesenchymal stem cell
dc.subject.indexkeywordsNF kB signaling
dc.subject.indexkeywordsnonhuman
dc.subject.indexkeywordspluristem allogenic placental expanded cell
dc.subject.indexkeywordspregnancy
dc.subject.indexkeywordspregnant woman
dc.subject.indexkeywordsSevere acute respiratory syndrome coronavirus 2
dc.subject.indexkeywordsstem cell transplantation
dc.subject.indexkeywordsstroma cell
dc.subject.indexkeywordsstromal vascular fraction
dc.subject.indexkeywordsvirus entry
dc.subject.indexkeywordsvirus infection
dc.subject.indexkeywordsBetacoronavirus
dc.subject.indexkeywordsbinding site
dc.subject.indexkeywordsCoronavirus infection
dc.subject.indexkeywordsdrug repositioning
dc.subject.indexkeywordsmetabolism
dc.subject.indexkeywordsoff label drug use
dc.subject.indexkeywordspandemic
dc.subject.indexkeywordspregnancy complication
dc.subject.indexkeywordsprevention and control
dc.subject.indexkeywordsprocedures
dc.subject.indexkeywordsvertical transmission
dc.subject.indexkeywordsvirology
dc.subject.indexkeywordsvirus pneumonia
dc.subject.indexkeywordsAngiotensin II Type 1 Receptor Blockers
dc.subject.indexkeywordsAngiotensin-Converting Enzyme 2
dc.subject.indexkeywordsAnticholesteremic Agents
dc.subject.indexkeywordsBinding Sites
dc.subject.indexkeywordsCaveolin 1
dc.subject.indexkeywordsCoronavirus Infections
dc.subject.indexkeywordsCOVID-19
dc.subject.indexkeywordsDrug Discovery
dc.subject.indexkeywordsDrug Repositioning
dc.subject.indexkeywordsFemale
dc.subject.indexkeywordsHumans
dc.subject.indexkeywordsInfectious Disease Transmission, Vertical
dc.subject.indexkeywordsLipoxins
dc.subject.indexkeywordsNF-kappa B
dc.subject.indexkeywordsOff-Label Use
dc.subject.indexkeywordsPandemics
dc.subject.indexkeywordsPeptidyl-Dipeptidase A
dc.subject.indexkeywordsPneumonia, Viral
dc.subject.indexkeywordsPregnancy
dc.subject.indexkeywordsPregnancy Complications, Infectious
dc.subject.indexkeywordsProteasome Endopeptidase Complex
dc.subject.indexkeywordsProteasome Inhibitors
dc.subject.indexkeywordsSARS-CoV-2
dc.subject.indexkeywordsSerine Endopeptidases
dc.subject.indexkeywordsSerine Proteinase Inhibitors
dc.subject.indexkeywordsVirus Internalization
dc.titleCombating sars-cov-2 through lipoxins, proteasome, caveolin and nuclear factor-κb pathways in non-pregnant and pregnant populations
dc.typeArticle
dcterms.referencesZhou, Peng, A pneumonia outbreak associated with a new coronavirus of probable bat origin, Nature, 579, 7798, pp. 270-273, (2020), Chen, Yun, Structure analysis of the receptor binding of 2019-nCoV, Biochemical and Biophysical Research Communications, 525, 1, pp. 135-140, (2020), Hamming, Inge, Tissue distribution of ACE2 protein, the functional receptor for SARS coronavirus. A first step in understanding SARS pathogenesis, Journal of Pathology, 203, 2, pp. 631-637, (2004), Wang, Huan, Infectious bronchitis virus entry mainly depends on clathrin mediated endocytosis and requires classical endosomal/lysosomal system, Virology, 528, pp. 118-136, (2019), McMahon, Harvey T., Molecular mechanism and physiological functions of clathrin-mediated endocytosis, Nature Reviews Molecular Cell Biology, 12, 8, pp. 517-533, (2011), Joki-Korpela, Päivi, Entry of human parechovirus 1, Journal of Virology, 75, 4, pp. 1958-1967, (2001), Marjomäki, Varpu S., Internalization of echovirus 1 in caveolae, Journal of Virology, 76, 4, pp. 1856-1865, (2002), Inoue, Yuuki, Clathrin-dependent entry of severe acute respiratory syndrome coronavirus into target cells expressing ACE2 with the cytoplasmic tail deleted, Journal of Virology, 81, 16, pp. 8722-8729, (2007), Wang, Li Hsien, Mis-assembly of clathrin lattices on endosomes reveals a regulatory switch for coated pit formation, Journal of Cell Biology, 123, 5, pp. 1107-1117, (1993), Wong, Shell Fean, Severe Acute Respiratory Syndrome and pregnancy, BJOG: An International Journal of Obstetrics and Gynaecology, 110, 7, pp. 641-642, (2003)
dspace.entity.typePublication
local.indexed.atScopus
person.identifier.scopus-author-id7004349870
person.identifier.scopus-author-id10439050500
person.identifier.scopus-author-id7005387041
person.identifier.scopus-author-id57194685508
person.identifier.scopus-author-id59117680400
person.identifier.scopus-author-id52464479900
person.identifier.scopus-author-id57217172728
person.identifier.scopus-author-id14043365000
person.identifier.scopus-author-id57202198262
person.identifier.scopus-author-id56369756800

Files

Original bundle

Now showing 1 - 1 of 1
No Thumbnail Available
Name:
Combating sars-cov-2 through lipoxins, proteasome, caveolin and nuclear factor-κb pathways in non-pregnant and pregnant populations.pdf
Size:
712.17 KB
Format:
Adobe Portable Document Format
Download

Collections

Scopus İndeksli Yayınlar Koleksiyonu