Antimicrobial activity and stability of protonectin with D‐amino acid substitutions

The misuse and overuse of antibiotics result in the emergence of resistant bacteria and fungi, which make an urgent need of the new antimicrobial agents. Nowadays, antimicrobial peptides have attracted great attention of researchers. However, the low physiological stability in biological system limits the application of naturally occurring antimicrobial peptides as novel therapeutics. In the present study, we synthesized derivatives of protonectin by substituting all the amino acid residues or the cationic lysine residue with the corresponding D ‐amino acids. Both the D ‐enantiomer of protonectin (D ‐prt) and D ‐Lys‐protonectin (D ‐Lys‐prt) exhibited strong antimicrobial activity against bacteria and fungi. Moreover, D ‐prt showed strong stability against trypsin, chymotrypsin and the human serum, while D ‐Lys‐prt only showed strong stability against trypsin. Circular dichroism analysis revealed that D ‐Lys‐prt still kept typical α‐helical structure in the membrane mimicking environment, while D ‐prt showed left hand α‐helical structure. In addition, propidium iodide uptake assay and bacteria and fungi killing experiments indicated that all D ‐amino acid substitution or partially D ‐amino acid substitution analogs could disrupt the integrity of membrane and lead the cell death. In summary, these findings suggested that D ‐prt and D ‐Lys‐prt might be promising candidate antibiotic agents for therapeutic application against resistant bacteria and fungi infection. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.     

Antimicrobial activities and membrane‐active mechanism of CPF‐C1 against multidrug‐resistant bacteria,a novel antimicrobial peptide derived from skin secretions of the tetraploid frog Xenopus clivii

Hospital‐acquired infections caused by multidrug‐resistant bacteria pose significant challenges for treatment, which necessitate the development of new antibiotics. Antimicrobial peptides are considered potential alternatives to conventional antibiotics. The skin of Anurans (frogs and toads) amphibians is an extraordinarily rich source of antimicrobial peptides. CPF‐C1 is a typical cationic antimicrobial peptide that was originally isolated from the tetraploid frog Xenopus clivii. Our results showed that CPF‐C1 has potent antimicrobial activity against both sensitive and multidrug‐resistant bacteria. It disrupted the outer and inner membranes of bacterial cells. CPF‐C1 induced both propidium iodide uptake into the bacterial cell and the leakage of calcein from large liposome vesicles, which suggests a mode of action that involves membrane disturbance. Scanning electron microscopy and transmission electron microscopy verified the morphologic changes of CPF‐C1‐treated bacterial cells and large liposome vesicles. The membrane‐dependent mode of action signifies that the CPF‐C1 peptide functions freely and without regard to conventional resistant mechanisms. Additionally, it is difficult for bacteria to develop resistance against CPF‐C1 under this action mode. Other studies indicated that CPF‐C1 had low cytotoxicity against mammalian cell. In conclusion, considering the increase in multidrug‐resistant bacterial infections, CPF‐C1 may offer a new strategy that can be considered a potential therapeutic agent for the treatment of diseases caused by multidrug‐resistant bacteria. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Screening and characterization of a novel high‐efficiency tumor‐homing cell‐penetrating peptide from the buffalo cathelicidin family

Targeted delivery of antitumor drugs is especially important for tumor therapy. Cell‐penetrating peptides (CPPs) have been shown to be very effective drug carriers for tumor therapy. However, most CPPs lack tumor cell specificity. Here, we identified a highly efficient CPP, CAT, from the newly identified buffalo‐derived cathelicidin family, which exhibits a preferential binding capacity for multiple tumor cell lines and delivers carried drug molecules into cells. CAT showed an approximately threefold to sixfold higher translocation efficiency than some reported cell‐penetrating antimicrobial peptides, including the well‐known classical CPP TAT. Moreover, the delivery efficiency of CAT was greater in a variety of tested tumor cells than in normal cells, especially for the human hepatoma cell line SMMC‐7721, for which delivery was 7 times more efficient than the normal human embryonic lung cell line MRC‐5, according to fluorescent labeling experiment results. CAT was conjugated to the Momordica charantia‐derived type‐I ribosome‐inactivating protein MAP 30, and the cytotoxicity of the MAP 30‐CAT fusion protein in the tumor cell line SMMC‐7721 was significantly enhanced compared with that of the unconjugated MAP 30. The IC50 value of MAP 30‐CAT was approximately 83 times lower than the IC50 value of the original MAP 30. Interestingly, the IC50 value of MAP 30 alone for MRC‐5 was approximately twofold higher than the value for SMMC‐7721, showing a small difference. However, when MAP 30 was conjugated to CAT, the difference in IC50 values between the two cell lines was significantly increased by 38‐fold. The results of the flow cytometric detection of apoptosis revealed that the increase in cytotoxicity after CAT conjugation was mainly caused by the increased induction of apoptosis by the fusion protein. These results suggest that CAT, as a novel tumor‐homing CPP, has great potential in drug delivery applications in vivo and will be beneficial to the development of tumor therapeutics.     

Identification and characterization of two novel antimicrobial peptides,temporin‐Ra and temporin‐Rb,from skin secretions of the marsh frog (Rana ridibunda)

In this study, two novel antimicrobial peptides from the skin secretions of the marsh frog, Rana ridibunda, named temporin‐Ra and temporin‐Rb, were identified and purified using RP‐HPLC. Temporin‐Ra and temporin‐Rb are composed of 14 and 12 amino acids, respectively. Our results show that these peptides have inhibitory effects on both gram‐negative and gram‐positive bacteria, especially antibiotic resistant strains prevalent in hospitals, such as Staphylococcus aureus and Streptococcus agalactiae. The sequences and molecular weights of these peptides were determined using tandem MS. The molecular masses were found to be 1242.5 Da for temporin‐Rb and 1585.1 Da for temporin‐Ra. Human red blood cells tolerated well exposure to temporin‐Ra and temporin‐Rb, which, at a concentration of 60 µg/ml, induced 1.3% and 1.1% hemolysis, respectively. MIC values of these peptides are suitable for potent antimicrobial peptides. The low hemolytic effect and wide‐spectrum antimicrobial activity suggest a possible therapeutic application of these novel peptides. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

Proteome characterization of splenocytes from an Aβpp/ps‐1 Alzheimer's disease model

Alzheimer's disease (AD) is the sixth leading cause of US deaths. In addition to neurodegenerative deficits in AD, changes in the immune system have also been observed. Proteomic analysis of specific immune cell populations may help gain insights into mechanisms of peripheral immunity in AD. Herein, we report proteome characterization for two subsets of splenocytes (i.e. CD90+ cells and a heterogeneous pool of CD90? cells) from a double transgenic mutant amyloid precursor protein/presenilin‐1 (Aβpp/ps‐ 1) AD mouse model. Overall, 906 proteins were identified from both cell types with 275 and 334 proteins uniquely identified as CD90+ and CD90? cells, respectively. Proteins identified in CD90+ and CD90? cells were significantly involved in 18 and 19 KEGG pathways, respectively. Amongst these, pathways associated with AD and antigen processing and presentation were identified in CD90+ and CD90? subsets, respectively. This is the first study to provide a reference proteome map for splenocyte populations in A βpp/ps‐ 1 double transgenic mice which will be helpful for future studies focused on understanding peripheral changes in this model. All MS data have been deposited in the ProteomeXchange with identifier PXD000203 ( http://proteomecentral.proteomexchange.org/dataset/PXD000203 ).     

Inhibitory and anti‐inflammatory effects of two antimicrobial peptides moronecidin and temporin‐1Dra against Propionibacterium acnes in vitro and in vivo

Proliferation of Propionibacterium acnes (P. acnes) is one of the main pathogenetic mechanisms of acne. Antimicrobial peptides with low‐drug resistance and nonresidual are potential anti‐acne agents. In this study, two antimicrobial peptides named temporin‐1Dra and moronecidin were synthesized and tested their antimicrobial activity against P. acnes in vitro and in vivo. These two peptides inhibited the growth of Escherichia coli, Staphylococcus aureus, Candida albicans, and P. acnes. The minimal inhibitory concentrations (MICs) of temporin‐1Dra and moronecidin to P. acnes were 30 and 10 μM, respectively. Both peptides exhibited strong resistance to heat and pH, but no obvious cytotoxicity to HaCaT cells. They also displayed persistent antimicrobial activities in the microbial challenge test. In the P. acnes‐induced inflammation mouse model, moronecidin significantly decreased the ear swelling thickness in a concentration‐dependent manner. At the 14th day after injection, 20 μg/day moronecidin reduced the ear swelling thickness to 46.15 ± 5.23% compared with the normal cream group. Tissue staining showed that moronecidin effectively reduced abscess and thickness of the dermis layer. Our results indicate that the antimicrobial peptide moronecidin could be developed as a potential natural anti‐acne agent in the cosmetics or pharmaceutical industries.     

苦荞α-螺旋发夹抗菌肽的分子改造抑制植物真菌活性

本研究对来源于苦荞的α-螺旋发夹抗菌肽FtAMP抗真菌机制与结构之间的关系进行了研究。首先人工合成了FtAMP分子中N-端和C-端的α-螺旋(FtAMP-N和FtAMP-C）,探究两个α-螺旋究竟是哪个螺旋在起抗菌作用。然后以FtAMP为模板,α-螺旋区电荷和两亲性特征为变化要素,利用螺旋轮投影和特定氨基酸残基替换的方法,对其进行初步分子改造,并通过对多肽结构和活性比较,探讨FtAMP结构-功能的关系。研究表明,FtAMP-N和FtAMP-C都显示出良好的抗菌活性。根据螺旋轮投影方法分析螺旋的两亲性特征,并以FtAMP氨基酸序列为模板,分别表达4个FtAMP突变体(FtAMP-E12A、FtAMP-E12A/E9K、FtAMP-E12A/E9A和FtAMP-E12A/E9K/T24E）。圆二色光谱分析显示,4个多肽都可正确折叠成α-螺旋结构,在208 nm和222 nm处有典型的双负峰,表明氨基酸的改变及其表达过程中并未改变多肽的二级结构。抗真菌活性分析显示,与FtAMP相比,4种突变体对植物真菌的抑制作用均有一定增强。特别是FtAMP-E12A/E9K突变体,其抗真菌作用增强约1倍,同时诱导溶血活性并不显著,选择特异性提高近2倍。该研究也进一步表明,α-螺旋发夹抗菌肽发挥抗真菌效应主要与其螺旋结构有关,而与其抑制剂的活性位点没有关系,为该类抗菌肽结构和功能的关系提供了一定的参考。     

Quantitative Proteome Analysis of Brain Subregions and Spinal Cord from Experimental Autoimmune Encephalomyelitis Mice by TMT‐Based Mass Spectrometry

Multiple sclerosis (MS) is an autoimmune disease of the central nervous system (CNS); its cause is unknown. To understand the pathogenesis of MS, researchers often use the experimental autoimmune encephalomyelitis (EAE) mouse model. Here, the aim is to build a proteome map of the biological changes that occur during MS at the major onset sites—the brain and the spinal cord. Quantitative proteome profiling is performed in five specific brain regions and the spinal cord of EAE and healthy mice with high‐resolution mass spectrometry based on tandem mass tags. On average, 7400 proteins per region are quantified, with the most differentially expressed proteins in the spinal cord (1691), hippocampus (104), frontal cortex (83), cerebellum (63), brainstem (50), and caudate nucleus (41). Moreover, region‐specific and commonly expressed proteins in each region are identified and bioinformatics analysis is performed. Pathway analysis reveals that protein clusters resemble their functions in disease pathogenesis (i.e., by inducing inflammatory responses, immune activation, and cell–cell adhesion). In conclusion, the study provides an understanding of the pathogenesis of MS in the EAE animal model. It is expected that the comprehensive proteome map of the brain and spinal cord can be used to identify biomarkers for the pathogenesis of MS.     

Structure of the Escherichia coli ArnA N‐formyltransferase domain in complex with N5‐formyltetrahydrofolate and UDP‐Ara4N

ArnA from Escherichia coli is a key enzyme involved in the formation of 4‐amino‐4‐deoxy‐l ‐arabinose. The addition of this sugar to the lipid A moiety of the lipopolysaccharide of pathogenic Gram‐negative bacteria allows these organisms to evade the cationic antimicrobial peptides of the host immune system. Indeed, it is thought that such modifications may be responsible for the repeated infections of cystic fibrosis patients with Pseudomonas aeruginosa. ArnA is a bifunctional enzyme with the N‐ and C‐terminal domains catalyzing formylation and oxidative decarboxylation reactions, respectively. The catalytically competent cofactor for the formylation reaction is N¹⁰‐formyltetrahydrofolate. Here we describe the structure of the isolated N‐terminal domain of ArnA in complex with its UDP‐sugar substrate and N⁵‐formyltetrahydrofolate. The model presented herein may prove valuable in the development of new antimicrobial therapeutics.     

BhSGAMP‐1, a gene that encodes an antimicrobial peptide,is developmentally regulated by the direct action of 20‐OH ecdysone in the salivary gland of Bradysia hygida (Diptera,Sciaridae)

Recently we have shown that BhSGAMP‐1 is a developmentally regulated reiterated gene that encodes an antimicrobial peptide (AMP) and is expressed exclusively in the salivary glands, at the end of the larval stage. We show, for the first time, that a gene for an AMP is directly activated by 20‐OH ecdysone. This control probably involves the participation of short‐lived repressor(s). We also found that the promoter of BhSGAMP‐1 is not equipped with elements that respond to infection, provoked by the injection of microorganisms, in the salivary glands or in the fat body. We produced polyclonal antibodies against the synthetic peptide and found that the BhSGAMP‐1 peptide is secreted in the saliva. The BhSGAMP‐1 gene was also activated during the third larval molt. These facts confirm our hypothesis that this preventive system of defense was selected to produce an environment free of harmful microorganisms in the insect's immediate vicinity, during molts. genesis 47:847–857, 2009. © 2009 Wiley‐Liss, Inc.     

Fluid shear stress induces Runx‐2 expression via upregulation of PIEZO1 in MC3T3‐E1 cells

Mechanically induced biological responses in bone cells involve a complex biophysical process. Although various mechanosensors have been identified, the precise mechanotransduction pathway remains poorly understood. PIEZO1 is a newly discovered mechanically activated ion channel in bone cells. This study aimed to explore the involvement of PIEZO1 in mechanical loading (fluid shear stress)‐induced signaling cascades that control osteogenesis. The results showed that fluid shear stress increased PIEZO1 expression in MC3T3‐E1 cells. The fluid shear stress elicited the key osteoblastic gene Runx‐2 expression; however, PIEZO1 silencing using small interference RNA blocked these effects. The AKT/GSK‐3β/β‐catenin pathway was activated in this process. PIEZO1 silencing impaired mechanically induced activation of the AKT/GSK‐3β/β‐catenin pathway. Therefore, the results demonstrated that MC3T3‐E1 osteoblasts required PIEZO1 to adapt to the external mechanical fluid shear stress, thereby inducing osteoblastic Runx‐2 gene expression, partly through the AKT/GSK‐3β/β‐catenin pathway.     

Development of an enzyme‐linked immunosorbent assay (ELISA) for Luteinizing Hormone (LH) in the elephant (Loxodonta africana and Elephas maximus)

A simple, rapid enzyme‐linked immunosorbent assay (ELISA) for the measurement of LH in plasma and serum of elephants (Loxodonta africana and Elephas maximus) has been developed, validated, and used for comparative studies. Purified elephant LH (eleLH) diluted in elephant plasma was used as standards (0.78–50 ng/ml). A monoclonal antibody against the β‐subunit of bovine LH (518B₇) was used as the capture antibody. The second antibody (a polyclonal rabbit anti‐human LH antibody), conjugated to horseradish peroxidase, cleaved a substrate (tetramethyl benzidine), resulting in a color change. The total assay time was approximately 2½ hr, with incubations at room temperature. Sensitivity was found to be 1.56 ng/ml. Cross‐reactivities to elephant FSH and TSH were low: 0.9% and 0.15%, respectively. The accuracy of the assay was demonstrated by comparing the ELISA with a validated eleLH radioimmunoassay (RIA), progesterone data, and ultrasound observations. Blood samples from 18 Asian and African elephant cows were analyzed with the ELISA and RIA, and an additional 11 cows were used to describe endocrine parameters for LH and progesterone using only RIA. No difference was found in LH peak concentrations between the ELISA and RIA. The time from the progesterone decline to the first LH peak, and the time between the two peaks were similar between species. Asian cows had higher LH peaks than African cows. Ultrasound confirmed the time of ovulation occurring with the second LH peak. Three cows were inseminated and confirmed to be pregnant using this ELISA as a timing device. Instrumentation is not always required, as LH peaks approximating 3 ng/ml can be visually observed. In conclusion, this ELISA can be used as a field test to determine time of ovulation for artificial insemination (AI) or natural breeding of both species of elephants, and thus is an important tool for the preservation of captive populations worldwide. Zoo Biol 23:65–78, 2004. © 2004 Wiley‐Liss, Inc.     

Solution structures and model membrane interactions of Ctriporin,an anti‐methicillin‐resistant Staphylococcus aureus Peptide from Scorpion Venom

Ctriporin peptide (Ctr), a novel antimicrobial peptide isolated from the venom of the scorpion Chaerilus tricostatus, shows a broad‐spectrum of antimicrobial activity and is able to inhibit antibiotic resistant pathogens, including Methicillin resistant Staphylococcus aureus, Methicillin Resistant Coagulase‐negative Staphylococcus, and Penicillin Resistant Staphylococcus epidermidis strains. To understand the active conformation of the Ctr peptide in membranes, we have investigated the interaction of Ctr with the negatively charged and zwitterionic membrane‐mimetic micelles such as sodium dodecyl sulphate (SDS) and n‐dodecylphosphocholine (DPC), respectively. The interactions were studied using fluorescence and circular dichroism (CD) spectroscopy. Fluorescence experiments revealed that the N‐terminus tryptophan residue of Ctr interacted with the hydrophobic core of the membrane mimicking micelles. The CD results suggest that interactions with membrane‐mimetic micelles induce an α‐helix conformation in Ctr. Moreover, we have determined the solution structures of Ctr in SDS and DPC micelles using nuclear magnetic resonance (NMR) spectroscopy. The structural comparison of Ctr in the presence of SDS and DPC micelles showed significant conformational changes. The observed structural differences of Ctr in anionic versus zwitterionic membrane‐mimetic micelles suggest that the mode of interaction of this peptide may be different in two environments which may account for its ability to differentiate bacterial and eukaryotic cell membrane. © 2014 Wiley Periodicals, Inc. Biopolymers 101: 1143–1153, 2014.     

Micelle bound structure and DNA interaction of brevinin‐2‐related peptide,an antimicrobial peptide derived from frog skin

Brevinin‐2‐related peptide (BR‐II), a novel antimicrobial peptide isolated from the skin of frog, Rana septentrionalis, shows a broad spectrum of antimicrobial activity with low haemolytic activity. It has also been shown to have antiviral activity, specifically to protect cells from infection by HIV‐1. To understand the active conformation of the BR‐II peptide in membranes, we have investigated the interaction of BR‐II with the prokaryotic and eukaryotic membrane‐mimetic micelles such as sodium dodecylsulfate (SDS) and dodecylphosphocholine (DPC), respectively. The interactions were studied using fluorescence and circular dichroism (CD) spectroscopy. Fluorescence experiments revealed that the N‐terminus tryptophan residue of BR‐II interacts with the hydrophobic core of the membrane mimicking micelles. The CD results suggest that interactions with membrane‐mimetic micelles induce an α‐helix conformation in BR‐II. We have also determined the solution structures of BR‐II in DPC and SDS micelles using NMR spectroscopy. The structural comparison of BR‐II in the presence of SDS and DPC micelles showed significant conformational changes in the residues connecting the N‐terminus and C‐terminus helices. The ability of BR‐II to bind DNA was elucidated by agarose gel retardation and fluorescence experiments. The structural differences of BR‐II in zwitterionic versus anionic membrane mimics and the DNA binding ability of BR‐II collectively contribute to the general understanding of the pharmacological specificity of this peptide towards prokaryotic and eukaryotic membranes and provide insights into its overall antimicrobial mechanism. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Quantitative Analysis of the Global Proteome in Peripheral Blood Mononuclear Cells from Patients with New‐Onset Psoriasis

Psoriasis is a common chronic autoimmune skin disease involving the activation of T cells. To explore the proteomic signature of peripheral blood mononuclear cells, a quantitative analysis of their global proteome was conducted in samples from Chinese patients with new‐onset psoriasis (n = 31) and healthy controls (n = 32) using an integrated quantitative approach with tandem mass tag labeling and LC–MS/MS. Protein annotation, unsupervised hierarchical clustering, functional classification, functional enrichment and cluster, and protein–protein interaction analyses were performed. A total of 5178 proteins were identified, of which 4404 proteins were quantified. The fold‐change cutoff was set at 1.2 (patients vs controls); 335 proteins were upregulated, and 107 proteins were downregulated. The bioinformatics analysis indicated that the differentially expressed proteins were involved in processes related to the activation of immune cells including the nuclear factor kappa‐light‐chain‐enhancer of activated B cells (NF‐κB) pathway, cellular energy metabolism, and proliferation. Three upregulated proteins and two phosphorylated proteins in the NF‐κB pathway were verified or identified by Western blotting. These results confirm that the NF‐κB pathway is critical to psoriasis. In addition, many differentially expressed proteins identified in this study have never before been associated with psoriasis, and further studies on these proteins are necessary.     

In planta chemical cross‐linking and mass spectrometry analysis of protein structure and interaction in Arabidopsis

Site‐specific chemical cross‐linking in combination with mass spectrometry analysis has emerged as a powerful proteomic approach for studying the three‐dimensional structure of protein complexes and in mapping protein–protein interactions (PPIs). Building on the success of MS analysis of in vitro cross‐linked proteins, which has been widely used to investigate specific interactions of bait proteins and their targets in various organisms, we report a workflow for in vivo chemical cross‐linking and MS analysis in a multicellular eukaryote. This approach optimizes the in vivo protein cross‐linking conditions in Arabidopsis thaliana, establishes a MudPIT procedure for the enrichment of cross‐linked peptides, and develops an integrated software program, exhaustive cross‐linked peptides identification tool (ECL), to identify the MS spectra of in planta chemical cross‐linked peptides. In total, two pairs of in vivo cross‐linked peptides of high confidence have been identified from two independent biological replicates. This work demarks the beginning of an alternative proteomic approach in the study of in vivo protein tertiary structure and PPIs in multicellular eukaryotes.     

Peptides derived from the copper‐binding region of lysyl oxidase exhibit antiangiogeneic properties by inhibiting enzyme activity: an in vitro study

Despite the rigorous research on abnormal angiogenesis, there is a persistent need for the development of new and efficient therapies against angiogenesis‐related diseases. The role of Lysyl oxidase (LOX) in angiogenesis and cancer has been established in prior studies. Copper is known to induce the synthesis of LOX, and hence regulates its activity. Hypoxia‐induced metastasis is dependent on LOX expression and activity. It has been believed that the inhibition of LOX would be a therapeutic strategy to inhibit angiogenesis. To explore this, we designed peptides (M peptides) from the copper‐binding region of LOX and hypothesized them to modulate LOX. The peptides were characterized, and their copper‐binding ability was confirmed by mass spectrometry. The M peptides were found to reduce the levels of intracellular copper when the cells were co‐treated with copper. The peptides showed promising effect on aortic LOX, recombinant human LOX and LOX produced by human umbilical vein endothelial cells (HUVECs). The study also explores the effect of these peptides on copper and hypoxia‐stimulated angiogenic response in HUVECs. It was found that the M peptides inhibited copper/hypoxia‐induced LOX activity and inhibited stimulated HUVEC tube formation and migration. This clearly indicated the potential of M peptides in inhibiting angiogenesis, highlighting their role in the formulation of drugs for the same. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Large‐Scale Analysis of Redox‐Sensitive Conditionally Disordered Protein Regions Reveals Their Widespread Nature and Key Roles in High‐Level Eukaryotic Processes

Recently developed quantitative redox proteomic studies enable the direct identification of redox‐sensing cysteine residues that regulate the functional behavior of target proteins in response to changing levels of reactive oxygen species. At the molecular level, redox regulation can directly modify the active sites of enzymes, although a growing number of examples indicate the importance of an additional underlying mechanism that involves conditionally disordered proteins. These proteins alter their functional behavior by undergoing a disorder‐to‐order transition in response to changing redox conditions. However, the extent to which this mechanism is used in various proteomes is currently unknown. Here, a recently developed sequence‐based prediction tool incorporated into the IUPred2A web server is used to estimate redox‐sensitive conditionally disordered regions at a large scale. It is shown that redox‐sensitive conditional disorder is fairly widespread in various proteomes and that its presence strongly correlates with the expansion of specific domains in multicellular organisms that largely rely on extra stability provided by disulfide bonds or zinc ion binding. The analyses of yeast redox proteomes and human disease data further underlie the significance of this phenomenon in the regulation of a wide range of biological processes, as well as its biomedical importance.