Key Specifications Table
|Species Reactivity||Key Applications||Host||Format||Antibody Type|
|H||ChIP, ICC, IH(P), WB||Rb||Affinity Purified||Polyclonal Antibody|
|Presentation||Purified rabbit polyclonal antibody in buffer containing 0.1 M Tris-Glycine (pH 7.4), 150 mM NaCl with 0.05% sodium azide.|
|Safety Information according to GHS|
|Storage and Shipping Information|
|Storage Conditions||Recommend storage at +2°C to +8°C. For long term storage antibodies can be kept at -20°C. Avoid repeated freeze-thaws.
|Material Size||200 µL|
Anti-Histone H4 (citrulline 3) Antibody SDS
|Reference overview||Application||Pub Med ID|
|Deimination of linker histones links neutrophil extracellular trap release with autoantibodies in systemic autoimmunity.|
Dwivedi, N; Neeli, I; Schall, N; Wan, H; Desiderio, DM; Csernok, E; Thompson, PR; Dali, H; Briand, JP; Muller, S; Radic, M
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 28 2840-51 2014
Autoantibodies to nuclear antigens arise in human autoimmune diseases, but a unifying pathogenetic mechanism remains elusive. Recently we reported that exposure of neutrophils to inflammatory conditions induces the citrullination of core histones by peptidylarginine deiminase 4 (PAD4) and that patients with autoimmune disorders produce autoantibodies that recognize such citrullinated histones. Here we identify histone H1 as an additional substrate of PAD4, localize H1 within neutrophil extracellular traps, and detect autoantibodies to citrullinated H1 in 6% of sera from patients with systemic lupus erythematosus and Sjögren's syndrome. No preference for deiminated H1 was observed in healthy control sera and sera from patients with scleroderma or rheumatoid arthritis. We map binding to the winged helix of H1 and determine that citrulline 53 represents a key determinant of the autoantibody epitope. In addition, we quantitate RNA for H1 histone subtypes in mature human neutrophils and identify citrulline residues by liquid chromatography and tandem mass spectrometry. Our results indicate that deimination of linker histones generates new autoantibody epitopes with enhanced potential for stimulating autoreactive human B cells.-Dwivedi, N., Neeli, I., Schall, N., Wan, H., Desiderio, D. M., Csernok, E., Thompson, P. R., Dali, H., Briand, J.-P., Muller, S., Radic, M. Deimination of linker histones links neutrophil extracellular trap release with autoantibodies in systemic autoimmunity.
|PAD4-mediated neutrophil extracellular trap formation is not required for immunity against influenza infection.|
Hemmers, S; Teijaro, JR; Arandjelovic, S; Mowen, KA
PloS one 6 e22043 2011
During an inflammatory response, neutrophils migrate to the site of infection where they can kill invading pathogens by phagocytosis, secretion of anti-microbicidal mediators or the release of neutrophil extracellular traps (NETs). NETs are specialized anti-microbial structures comprised of decondensed chromatin decorated with microbicidal agents. Increased amount of NETs have been found in patients suffering from the chronic lung inflammatory disease cystic fibrosis, correlating with increased severity of pulmonary obstruction. Furthermore, acute lung inflammation during influenza A infection is characterized by a massive influx of neutrophils into the lung. The role of NETs during virus-mediated lung inflammation is unknown. Peptidylarginine deiminase 4 (PAD4)-mediated deimination of histone H3 and H4 is required for NET formation. Therefore, we generated a PAD4-deficient mouse strain that has a striking inability to form NETs. These mice were infected with influenza A/WSN, and the disease was monitored at the level of leukocytic lung infiltration, lung pathology, viral replication, weight loss and mortality. PAD4 KO fared comparable to WT mice in all the parameters tested, but they displayed slight but statistically different weight loss kinetics during infection that was not reflected in enhanced survival. Overall, we conclude that PAD4-mediated NET formation is dispensable in a mouse model of influenza A infection.Full Text Article
|Potential role for peptidylarginine deiminase 2 (PAD2) in citrullination of canine mammary epithelial cell histones.|
Cherrington, BD; Morency, E; Struble, AM; Coonrod, SA; Wakshlag, JJ
PloS one 5 e11768 2010
Peptidylarginine Deiminases (PADs) convert arginine residues on substrate proteins to citrulline. Previous reports have documented that PAD2 expression and activity varies across the estrous cycle in the rodent uterus and pituitary gland, however, the expression and function of PAD2 in mammary tissue has not been previously reported. To gain more insight into potential reproductive roles for PAD2, in this study we evaluated PAD2 expression and localization throughout the estrous cycle in canine mammary tissue and then identified possible PAD2 enzymatic targets. Immunohistochemical and immunofluorescence analysis found PAD2 expression is low in anestrus, limited to a distinct, yet sparse, subset of epithelial cells within ductal alveoli during estrus/early diestrus, and encompasses the entire epithelium of the mammary duct in late diestrus. At the subcellular level, PAD2 is expressed in the cytoplasm, and to a lesser extent, the nucleus of these epithelial cells. Surprisingly, stimulation of canine mammary tumor cells (CMT25) shows that EGF, but not estrogen or progesterone, upregulates PAD2 transcription and translation suggesting EGF regulation of PAD2 and possibly citrullination in vivo. To identify potential PAD2 targets, anti-pan citrulline western blots were performed and results showed that citrullination activity is limited to diestrus with histones appearing to represent major enzymatic targets. Use of site-specific anti-citrullinated histone antibodies found that the N-terminus of histone H3, but not H4, appears to be the primary target of PAD activity in mammary epithelium. This observation supports the hypothesis that PAD2 may play a regulatory role in the expression of lactation related genes via histone citrullination during diestrus.Full Text Article
|Analysis of histones in Xenopus laevis. I. A distinct index of enriched variants and modifications exists in each cell type and is remodeled during developmental transitions.|
Shechter, D; Nicklay, JJ; Chitta, RK; Shabanowitz, J; Hunt, DF; Allis, CD
The Journal of biological chemistry 284 1064-74 2009
Histone proteins contain epigenetic information that is encoded both in the relative abundance of core histones and variants and particularly in the post-translational modification of these proteins. We determined the presence of such variants and covalent modifications in seven tissue types of the anuran Xenopus laevis, including oocyte, egg, sperm, early embryo equivalent (pronuclei incubated in egg extract), S3 neurula cells, A6 kidney cells, and erythrocytes. We first developed a new robust method for isolating the stored, predeposition histones from oocytes and eggs via chromatography on heparin-Sepharose, whereas we isolated chromatinized histones via conventional acid extraction. We identified two previously unknown H1 isoforms (H1fx and H1B.Sp) present on sperm chromatin. We immunoblotted this global collection of histones with many specific post-translational modification antibodies, including antibodies against methylated histone H3 on Lys(4), Lys(9), Lys(27), Lys(79), Arg(2), Arg(17), and Arg(26); methylated histone H4 on Lys(20); methylated H2A and H4 on Arg(3); acetylated H4 on Lys(5), Lys(8), Lys(12), and Lys(16) and H3 on Lys(9) and Lys(14); and phosphorylated H3 on Ser(10) and H2A/H4 on Ser(1). Furthermore, we subjected a subset of these histones to two-dimensional gel analysis and subsequent immunoblotting and mass spectrometry to determine the global remodeling of histone modifications that occurs as development proceeds. Overall, our observations suggest that each metazoan cell type may have a unique histone modification signature correlated with its differentiation status.
|Functional connection between deimination and deacetylation of histones.|
Denis, H; Deplus, R; Putmans, P; Yamada, M; Métivier, R; Fuks, F
Molecular and cellular biology 29 4982-93 2009
Histone methylation plays key roles in regulating chromatin structure and function. The recent identification of enzymes that antagonize or remove histone methylation offers new opportunities to appreciate histone methylation plasticity in the regulation of epigenetic pathways. Peptidylarginine deiminase 4 (PADI4; also known as PAD4) was the first enzyme shown to antagonize histone methylation. PADI4 functions as a histone deiminase converting a methylarginine residue to citrulline at specific sites on the tails of histones H3 and H4. This activity is linked to repression of the estrogen-regulated pS2 promoter. Very little is known as to how PADI4 silences gene expression. We show here that PADI4 associates with the histone deacetylase 1 (HDAC1). Kinetic chromatin immunoprecipitation assays revealed that PADI4 and HDAC1, and the corresponding activities, associate cyclically and coordinately with the pS2 promoter during repression phases. Knockdown of HDAC1 led to decreased H3 citrullination, concomitantly with increased histone arginine methylation. In cells with a reduced HDAC1 and a slightly decreased PADI4 level, these effects were more pronounced. Our data thus suggest that PADI4 and HDAC1 collaborate to generate a repressive chromatin environment on the pS2 promoter. These findings further substantiate the "transcriptional clock" concept, highlighting the dynamic connection between deimination and deacetylation of histones.
|Human PAD4 regulates histone arginine methylation levels via demethylimination|
Wang, Y., et al
Science, 306:279-83 (2004) 2004