2015
DOI: 10.1039/c4mt00222a
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Therapeutic and analytical applications of arsenic binding to proteins

Abstract: Arsenic binding to proteins plays a pivotal role in the health effects of arsenic. Further knowledge of arsenic binding to proteins will advance the development of bioanalytical techniques and therapeutic drugs. This review summarizes recent work on arsenic-based drugs, imaging of cellular events, capture and purification of arsenic-binding proteins, and biosensing of arsenic. Binding of arsenic to the promyelocytic leukemia fusion oncoprotein (PML-RARα) is a plausible mode of action leading to the successful … Show more

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Cited by 74 publications
(38 citation statements)
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References 156 publications
(208 reference statements)
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“…Content and compositions of arsenoorganics formed in microalgae Chlorella and Monoraphidium [ 65 ], Dunaliella and Phaeodactylum [ 163 ], Chlamydomonas [ 160 ] or cyanobacteria Synechocystis [ 157 , 161 ] and Nostoc [ 161 ] cells depends on microalgae strain used, as well as on arsenic(V) concentration applied, exposure time and phosphate availability. Arsenolipids and arsenosugars are currently evaluated as possible therapeutic agents [ 164 ]. However, application of As-containing compounds is limited due to high toxicity and so far, only derivatives of arsenolipids have been reported to possess any medical applications [ 159 ].…”
Section: Metal Stress As a Methods For Stimulation Of Bioproduct Symentioning
confidence: 99%
“…Content and compositions of arsenoorganics formed in microalgae Chlorella and Monoraphidium [ 65 ], Dunaliella and Phaeodactylum [ 163 ], Chlamydomonas [ 160 ] or cyanobacteria Synechocystis [ 157 , 161 ] and Nostoc [ 161 ] cells depends on microalgae strain used, as well as on arsenic(V) concentration applied, exposure time and phosphate availability. Arsenolipids and arsenosugars are currently evaluated as possible therapeutic agents [ 164 ]. However, application of As-containing compounds is limited due to high toxicity and so far, only derivatives of arsenolipids have been reported to possess any medical applications [ 159 ].…”
Section: Metal Stress As a Methods For Stimulation Of Bioproduct Symentioning
confidence: 99%
“…The specificity can be enhanced further by protein engineering and/or molecule design strategies. Tetra‐cysteine sequences Cys‐Cys‐Xxx‐Xxx‐Cys‐Cys engineered into native protein sequences bind organic bis‐arsenicals with much greater affinity than mono and native dithiol equivalents and have been utilized to develop highly specific fluorescent labels (vide infra) . More notably, controlling the spacing between the arsenical functional groups in bis‐ and tris‐arsenicals elicits stronger binding ( K d ≈ 50 × 10 −9 m ) to native proteins that contain redox‐active thiol and disulfide rich domains, such as those associated with protein folding (e.g., protein disulfide isomerase) and redox homeostasis (e.g., thioredoxin), than mono‐arsenical analogues ( K d ≈ 1 × 10 −6 m ) …”
Section: Introductionmentioning
confidence: 99%
“…From the mechanistic standpoint, arsenic binding to cellular proteins can be a plausible mechanism of toxicity based on two hypotheses premised on functional disruption arising out of (a) sulfhydryl groups in proteins forming covalent bond with arsenite [8] and (b) the phosphate groups in proteins replaced by an arsenate. Arsenic binding to a specific protein could change the conformation and interaction with other functional proteins [9].…”
Section: Introductionmentioning
confidence: 99%