Literature DB >> 30284677

Alkaline phosphatase: a potential biomarker for stroke and implications for treatment.

Allison L Brichacek1,2, Candice M Brown3,4.   

Abstract

Stroke is the fifth leading cause of death in the U.S., with more than 100,000 deaths annually. There are a multitude of risks associated with stroke, including aging, cardiovascular disease, hypertension, Alzheimer's disease (AD), and immune suppression. One of the many challenges, which has so far proven to be unsuccessful, is the identification of a cost-effective diagnostic or prognostic biomarker for stroke. Alkaline phosphatase (AP), an enzyme first discovered in the 1920s, has been evaluated as a potential biomarker in many disorders, including many of the co-morbidities associated with stroke. This review will examine the basic biology of AP, and its most common isoenzyme, tissue nonspecific alkaline phosphatase (TNAP), with a specific focus on the central nervous system. It examines the preclinical and clinical evidence which supports a potential role for AP in stroke and suggests potential mechanism(s) of action for AP isoenzymes in stroke. Lastly, the review speculates on the clinical utility of AP isoenzymes as potential blood biomarkers for stroke or as AP-targeted treatments for stroke patients.

Entities:  

Keywords:  Alkaline phosphatase; Biomarker; Blood-brain barrer; Stroke; Tissue nonspecific alkaline phosphatase

Mesh:

Substances:

Year:  2018        PMID: 30284677      PMCID: PMC6351214          DOI: 10.1007/s11011-018-0322-3

Source DB:  PubMed          Journal:  Metab Brain Dis        ISSN: 0885-7490            Impact factor:   3.584


  183 in total

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Journal:  Trends Neurosci       Date:  1999-09       Impact factor: 13.837

2.  Impact of serum alkaline phosphatase level on coronary collateral circulation.

Authors:  Ahmet Karabulut; Irfan Sahin; Ilhan Ilker Avci; Ertugrul Okuyan; Zeki Dogan; Bulent Uzunlar; Seckin Satilmis
Journal:  Kardiol Pol       Date:  2014-05-20       Impact factor: 3.108

3.  A quantitative mapping of alkaline phosphatase in the brain of the rhesus monkey.

Authors:  R L Friede
Journal:  J Neurochem       Date:  1966-03       Impact factor: 5.372

4.  Beneficial effects of alkaline phosphatase in septic shock.

Authors:  Fuhong Su; Ruud Brands; Zhen Wang; Colin Verdant; Alejandro Bruhn; Ying Cai; Willem Raaben; Marty Wulferink; Jean-Louis Vincent
Journal:  Crit Care Med       Date:  2006-08       Impact factor: 7.598

5.  The alkaline phosphatase in human plexus chorioideus.

Authors:  Y Nishihara; Y Hayashi; T Fujii; T Adachi; T Stigbrand; K Hirano
Journal:  Biochim Biophys Acta       Date:  1994-12-14

6.  Local peritoneal irrigation with intestinal alkaline phosphatase is protective against peritonitis in mice.

Authors:  Farzad Ebrahimi; Madhu S Malo; Sayeda Nasrin Alam; Angela K Moss; Halim Yammine; Sundaram Ramasamy; Brishti Biswas; Kathryn T Chen; Nur Muhammad; Golam Mostafa; H Shaw Warren; Elizabeth L Hohmann; Richard A Hodin
Journal:  J Gastrointest Surg       Date:  2011-03-01       Impact factor: 3.452

7.  Localization of alkaline phosphatase and Ca2+-ATPase in the cat placenta.

Authors:  E E Champion; J D Glazier; S L Greenwood; S J Mann; J M Rawlings; C P Sibley; C J P Jones
Journal:  Placenta       Date:  2003-05       Impact factor: 3.481

8.  Circulating CD34-positive cells provide an index of cerebrovascular function.

Authors:  Akihiko Taguchi; Tomohiro Matsuyama; Hiroshi Moriwaki; Takuya Hayashi; Kohei Hayashida; Kazuyuki Nagatsuka; Kenichi Todo; Katsushi Mori; David M Stern; Toshihiro Soma; Hiroaki Naritomi
Journal:  Circulation       Date:  2004-06-07       Impact factor: 29.690

9.  Assessment of the alkaline phosphatase level in gingival crevicular fluid, as a biomarker to evaluate the effect of scaling and root planing on chronic periodontitis: An in vivo study.

Authors:  Jimly James Kunjappu; Vinod Babu Mathew; Shashikanth Hegde; Rajesh Kashyap; Rajesh Hosadurga
Journal:  J Oral Maxillofac Pathol       Date:  2012-01

10.  Catalytic signature of a heat-stable, chimeric human alkaline phosphatase with therapeutic potential.

Authors:  Tina Kiffer-Moreira; Campbell R Sheen; Kellen Cristina da Silva Gasque; Mayte Bolean; Pietro Ciancaglini; Andrea van Elsas; Marc F Hoylaerts; José Luis Millán
Journal:  PLoS One       Date:  2014-02-24       Impact factor: 3.240
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Authors:  Stefania Raimondo; Dragana Nikolic; Alice Conigliaro; Gianluca Giavaresi; Bruna Lo Sasso; Rosaria Vincenza Giglio; Roberta Chianetta; Mauro Manno; Samuele Raccosta; Valeria Corleone; Giovanni Ferrante; Roberto Citarrella; Manfredi Rizzo; Giacomo De Leo; Marcello Ciaccio; Giuseppe Montalto; Riccardo Alessandro
Journal:  Metabolites       Date:  2021-04-27

2.  Alkaline phosphatase downregulation promotes lung adenocarcinoma metastasis via the c-Myc/RhoA axis.

Authors:  Zhefeng Lou; Weiwei Lin; Huirong Zhao; Xueli Jiao; Cong Wang; He Zhao; Lu Liu; Yu Liu; Qipeng Xie; Xing Huang; Haishan Huang; Lingling Zhao
Journal:  Cancer Cell Int       Date:  2021-04-15       Impact factor: 5.722

3.  Predictors of Stroke Outcome Extracted from Multivariate Linear Discriminant Analysis or Neural Network Analysis.

Authors:  Tomohisa Nezu; Naohisa Hosomi; Kazumasa Yoshimura; Daisuke Kuzume; Hiroyuki Naito; Shiro Aoki; Yuko Morimoto; Masato Kinboshi; Takeshi Yoshida; Yuji Shiga; Naoto Kinoshita; Akira Furui; Genta Tabuchi; Hiroki Ueno; Toshio Tsuji; Hirofumi Maruyama
Journal:  J Atheroscler Thromb       Date:  2020-12-09       Impact factor: 4.928

4.  Recognition of the Possible miRNA-mRNA Controlling Network in Stroke by Bioinformatics Examination.

Authors:  Wei Li; Jian Li; Yong Yang
Journal:  Comput Math Methods Med       Date:  2021-12-13       Impact factor: 2.238

5.  Serum Alkaline Phosphatase in Cryptogenic Stroke Cases with Active Cancer.

Authors:  Tesseki Izumi; Hitoki Nanaura; Naohiko Iguchi; Maki Ozaki; Kazuma Sugie
Journal:  Intern Med       Date:  2022-03-01       Impact factor: 1.271

6.  Increased Serum Alkaline Phosphatase and Functional Outcome in Patients with Acute Ischemic Stroke Presenting a Low Ankle-Brachial Index.

Authors:  Hiroyuki Naito; Tomohisa Nezu; Naohisa Hosomi; Daisuke Kuzume; Shiro Aoki; Yuko Morimoto; Takeshi Yoshida; Teppei Kamimura; Yuji Shiga; Naoto Kinoshita; Hiroki Ueno; Hiroyuki Morino; Hirofumi Maruyama
Journal:  J Atheroscler Thromb       Date:  2021-03-30       Impact factor: 4.394

7.  Prognostic values of serum alkaline phosphatase and globulin levels in patients undergoing intravenous thrombolysis.

Authors:  Hong-Jing Zhu; Xin Sun; Zhen-Ni Guo; Yang Qu; Ying-Ying Sun; Hang Jin; Mei-Qi Wang; Bao-Feng Xu; Yi Yang
Journal:  Front Mol Neurosci       Date:  2022-07-15       Impact factor: 6.261

8.  Non-Linear Association Between Serum Alkaline Phosphatase and 3-Month Outcomes in Patients With Acute Stroke: Results From the Xi'an Stroke Registry Study of China.

Authors:  Weiyan Guo; Zhongzhong Liu; Qingli Lu; Pei Liu; Xuemei Lin; Jing Wang; Yuanji Wang; Qiaoqiao Chang; Fang Wang; Songdi Wu
Journal:  Front Neurol       Date:  2022-07-15       Impact factor: 4.086

9.  Relationship between serum alkaline phosphatase and poor 3-month prognosis in acute ischemic stroke patients with preserved renal function: results from Xi'an Stroke Registry Study of China.

Authors:  Zhongzhong Liu; Xuemei Lin; Lingxia Zeng; Qingli Lu; Pei Liu; Jing Wang; Yan Liu; Qiaoqiao Chang; Yan Wang; Chensheng Song; Fang Wang; Yaling Shi; Guozheng Liu; Qing Wang; Songdi Wu
Journal:  BMC Neurol       Date:  2022-07-07       Impact factor: 2.903

Review 10.  TNAP as a therapeutic target for cardiovascular calcification: a discussion of its pleiotropic functions in the body.

Authors:  Claudia Goettsch; Agnieszka Strzelecka-Kiliszek; Laurence Bessueille; Thibaut Quillard; Laura Mechtouff; Slawomir Pikula; Emmanuelle Canet-Soulas; Jose Luis Millan; Caroline Fonta; David Magne
Journal:  Cardiovasc Res       Date:  2022-01-07       Impact factor: 10.787
  10 in total

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