Binding of high-mobility-group proteins HMG 14 and HMG 17 to DNA and histone H1 as influenced by phosphorylation

We have used affinity chromatography to study the effects of phosphorylation of calf thymus high-mobility-group proteins HMG 14 and HMG 17 on their binding properties towards calf thymus single- and double-stranded DNA and histone H1. Without in vitro phosphorylation, HMG 14 and HMG17 eluted from doble-stranded DNA-columns at 200 mM NaCl. HMG 14 was released from single-stranded DNA-column at 300 mM NaCl and from H1-column at 130 mM NaCl, whereas the corresponding values for HMG 17 were 230 mM and 20 mM, respectively. Phosphorylation of HMG 14 and HMG 17 by cAMP-dependent protein kinase (A-kinase) decreased markedly their affinity (270 mM and 200 mM NaCl, respectively) for single-stranded DNA, whereas HMG 14 phosphorylated by nuclear protein kinase II (NII-kinase) eluted only slightly (290 mM NaCl) ahead of the unphosphorylated protein. HMG 14 phosphorylated by both A-kinase and NII-kinase eluted from double-stranded DNA-columns almost identically (190 mM NaCl) with the unphosphorylated protein. Interestingly, phosphorylation of HMG 14 by NII-kinase increased considerably its affinity for histone H1 and the phosphorylated protein eluted at 200 mM NaCl. Phosphorylation of HMG 14 by A-kinase did not alter its interaction towards histone H1. These results indicate that modification of HMG 14 by phosphorylation at specific sites may have profound effects on its binding properties towards DNA and histone H1, and that HMG 17 has much weaker affinity for single-stranded DNA and histone H1 than HMG 14.     

Binding of HMG14 non-histone protein to histones H2A, H2B, H1 and DNA in reconstituted chromatin

The interaction between calf thymus HMG14 and rat liver chromatin components has been studied via reconstitution and chemical cross-linking. Selective labeling of HMG14 with photoactivable reversible heterobifunctional reagents has allowed a clear identification of the histones interacting with it (histones H2A, H2B and H1). These results are not dependent on whether the chromatin samples used were bulk chromatin, mononucleosomes, or core particles (for H2A and H2B). In addition to histone proteins, DNA also seems to be involved in HMG14 attachment to nucleosome.     

Conformational study of calf thymus HMG14 nonhistone protein

Physicochemical study of nonhistone protein HMG14 from calf thymus has been undertaken. The protein has a random structure with a molecular weight of approximately 10,000. On interaction with DNA, it behaves like histones and nonhistone protein HMG17. Both circular dichroism and melting absorption technics show that the protein has an ionic interaction with DNA without causing significant changes in DNA structure. In conrast to HMG1 and HMG2 which reduce linking number of circular DNA, nonhistone protein HMG14 and HMG17 do not introduce any changes in topological winding number of DNA.     

The effects of histones H1o,H5 and HMG proteins on cell division of cultured murine erythroleukemia cells

Summary In the present study the effect of histones H1^o and H5, and the nonhistone chromatin proteins HMG 1, 2, 14 and 17 (the high mobility group proteins), as well as the acidic peptide fragments of HMG 1 and 2 and polyglutamate, on cell division and differentation of cultured murine erythroleukemia (Friend) cells has been investigated. It was found that histones H1^o and H5, the acidic peptide fragments of HMG 1 and 2, HMG 14 and 17 and sodium polyglutamate stimulated cell division at a concentration of 10 g/ml. None of the H1^o, H5 or HMG protein preparations induced hemoglobin synthesis, as judged by benzidine staining.     

Histone H1 and HMG 14/17 are deposited nonrandomly in the nucleus.

We have studied the assembly of histone H1 and the high mobility group nonhistones 14/17 by isopycnic analysis after crosslinking density labeled MSB cell nuclei or chromatin. Carbodiimide crosslinking produces dense poly-H1 and hybrid density H1-H2A histone dimers, indicating that new H1 is deposited nonrandomly, albeit nonconservatively relative to new core histones. Core histone-HMG crosslinking with succinimidyl propionate yields dense HMG 14 in uniformly dense particles and new HMG 17 crosslinked to both dense and light protein, implying that HMG 14 and 17 each deposit nonrandomly; but differently with respect to new core octamers. Propionimidate crosslinking yields dense H1-HMG 17 dimers, suggesting that the interactions of new 14/17 with H1 (new HMG 14-old H1, new HMG 17-new H1) are reciprocal to their interactions with the core histones.     

Phosphorylation of high-mobility-group chromatin proteins by protein kinase C from rat brain

Chromosomal high-mobility-group (HMG) proteins have been examined as substrates for calcium/phospholipid-dependent protein kinase C. Protein kinase C from rat brain phosphorylated efficiently both HMG 14 and HMG 17 derived from calf thymus and the reactions were calcium/phospholipid-dependent. About 1 mol of ³²P was incorporated per mol of HMG 14 and HMG 17. Phosphopeptide mapping suggested that the same major site was phosphorylated in both proteins at serine. The apparent K_m values for HMG 14 and HMG 17 were about 5 μM. HMG 14, HMG 17 and the five histone H1 subtypes prepared from rat thymus, liver and spleen were phosphorylated by the kinase. HMG 14 and HMG 17 from transformed human lymphoblasts (Wi-L2) were also phosphorylated in a calcium/phospholipid-dependent manner. HMG 1 and HMG 2 from the tissues examined were found to be poor substrates for the kinase.     

The interaction of high mobility proteins HMG14 and 17 with nucleosomes.

The interaction of the high mobility group proteins, HMG14 and HMG17, with nucleosome core particles has been studied. The results show that two molecules of HMG14/17 can be bound tightly but reversibly to each core particle and that their affinity for core particles is greater than their affinity for histone-free DNA of core size. Thermal denaturation and nuclease digestion studies suggest that major sites of interaction are located near the ends of the nucleosome core DNA. When nucleosome preparations from chicken erythrocyte nuclei stripped of HMG proteins are partially titrated with HMG14/17, the nucleosome-HMG complex fraction is enriched in beta-globin gene sequences.     

Primary organization of nucleosomes. Interaction of non-histone high mobility group proteins 14 and 17 with nucleosomes, as revealed by DNA-protein crosslinking and immunoaffinity isolation

The binding sites for histones and high mobility group proteins (HMG) 14 and 17 have been located on DNA in the nucleosomal cores and H1/H5-containing nucleosomes. The nucleosomes were specifically associated with two molecules of the non-histone proteins HMG 14 and/or HMG 17 when followed by DNA-protein crosslinking and immunoaffinity isolation of the crosslinked HMG-DNA complexes. HMGs 14 and 17 were shown to be crosslinked in a similar manner to each core DNA strand at four sites: to both 3' and 5' DNA ends and also at distances of about 25 and 125 nucleotides from the 5' termini of the DNA. These sites are designated as HMG(143), (0), (25) and (125). The site HMG(125) is located at the place where no significant histone-DNA crosslinking was observed. The HMG(125) and HMG(25) sites lie opposite one another on the complementary DNA strands across the minor DNA groove and are placed, similarly to histones, on the inner side of the DNA superhelix in the nucleosome. The crosslinking of HMG 17 to the 3' ends of the DNA is much weaker than that of HMG 14. These data indicate that each of two molecules of HMG 14 and/or HMG 17 is bound to the double-stranded core DNA at two discrete sites: to the 3' and 5' ends of the DNA and at a distance of 20 to 25 base-pairs from each DNA terminus inside the nucleosome on a histone-free DNA region. Binding of HMG 14 or 17 does not induce any detectable rearrangement of histones on DNA and both HMGs seem to choose the same sites for attachment in nucleosomal cores and H1/H5-containing nucleosomes.     

Detection by chemical cross-linking of interaction between high mobility group protein 1 and histone oligomers in free solution

Among the more abundant non-histone proteins is the high mobility group (HMG), with an unknown role in chromatin. We have investigated, by chemical cross-linking, the interaction of the protein HMG 1 with the histone dimer H2A X H2B and the histone tetramer (H3 X H4)2 in free solution. Cross-linking with dimethyl suberimidate, 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide, and the cleavable cross-linker dimethyl-3,3'-dithiobispropionimidate, by two-dimensional electrophoresis reveals the existence of an interaction between HMG 1 and the histone dimer, and also between HMG 1 and the histone tetramer. In the case of the H2A X H2B dimer, the analysis of the patterns of the cross-linking products shows the presence of a trimer, (H2A X H2B) X HMG 1, and of another oligomer of higher molecular weight which also contains H2A X H2B and HMG 1. Non-histone HMG 1 has been found to interact with (H3 X H4)2, both by cross-linking kinetics and also by gel permeation chromatography, displaying a stoichiometry of one HMG 1/histone tetramer. The results have been interpreted as indicating the existence of an interaction between HMG 1 and both oligomers through two different binding sites.     

HMG-like protein in barley and corn nuclei

Chromosomal proteins have been isolated from barley (Hordeum vulgare) and corn (Zea mays) nuclei by extraction with 5% perchloric acid. In each plant, one protein was shown to belong to the HMG proteins. Their molecular weights are very close to that of HMG 14 from chicken erythrocytes, as shown by electrophoretic mobility in SDS polyacrylamide gels. In acetic acid-urea-Triton polyacrylamide gels they migrate between HMG 1,2 and HMG 14, from chicken erythrocytes. Their amino acid compositions are typical of HMG proteins, with equivalent high values of acidic and basic residues. Extraction of HMG's from purified barley chromatin fractions with 0.35 M NaCl considerably reduces histone H2 contamination and increases the yield of HMG up to 0.7% of the total histones. In this technique a second protein was extracted which is soluble in 2% Trichloroacetic acid and shows electrophoretic mobility analogous to those of HMG 14 and 17 from chicken erythrocytes. Whether or not these proteins are counterparts of the animal HMG's 1–2 or HMG's 14–17 is discussed.     

Effect of HMG protein 17 on the thermal stability of control and acetylated HeLa oligonucleosomes.

Many studies have implicated histone acetylation and HMG proteins 14 and 17 in the structure of active chromatin. Studies of the binding of HMG 14 and 17 to chromatin core particles have shown that there are two binding sites for HMG 14 or 17 located within 20-25 bp of the DNA ends of the core particles [13-15]. Such binding sites may result from the free DNA ends in the core particle being available for the binding of HMG 14 and 17. We have studied the effects of the binding of HMG 17 on the thermal denaturation of DNA in mono, di and trinucleosomes. In each case the binding of 1 HMG 17 molecule per nucleosome reduces the DNA premelt region by 50%, while the binding of 2 HMG 17 molecules per nucleosome abolishes the premelt region. From this it is concluded that there are two HMG 17 binding sites per nucleosome which are located between the entry and exit points to the nucleosome and the strongly complexed central DNA region. Highly acetylated mono, di and trinucleosomes have been isolated from butyrate treated HeLa S3 cells. For this series of acetylated oligonucleosomes, it has been found that there are also two HMG 17 binding sites per acetylated nucleosome.     

Analysis of the binding of high mobility group protein 17 to the nucleosome core particle by 1H NMR spectroscopy

The binding of high mobility group (HMG) protein 17 to the nucleosome core particle has been studied in D2O solution using 1H NMR at 500 MHz. Spectra were obtained for purified HMG 17, purified nucleosome core particles, and the reconstituted HMG 17-nucleosome core particle complex at 0.1, 0.2, 0.3, and 0.4 M NaCl. Subtraction of the core particle spectra from spectra of the core particle reconstituted with HMG 17 demonstrated those regions of HMG 17 which interact with the nucleosome at different ionic strengths; the resonance peaks of interacting groups are broadened due to their restricted mobility. At 0.1 M NaCl, the mobility of all the amino acid side chains of HMG 17 was restricted, indicating complete binding of HMG 17 to the much larger nucleosome core particle. At 0.2 M NaCl most of the amino acids were free with the exception of arginine and proline which are confined to or predominant in the basic central region of HMG 17. These amino acids were completely free only at 0.4 M NaCl. We conclude that the entire HMG 17 molecule interacts with the nucleosome core particle at physiological ionic strength. The acidic COOH-terminal region of HMG 17 is released from interaction with the core histones at an NaCl concentration between 0.1 and 0.2 M and so binds weakly at physiological ionic strength. The basic central region binds more strongly to the core particle DNA, being completely released only at much higher ionic strength, between 0.3 and 0.4 M NaCl.     

High mobility group proteins in ram spermatids

The four major high mobility group proteins HMG 1, 2, 14 and 17, HMG 19B and histone H1(0) were identified in the ram testis by their extraction and solubility characteristics and by their electrophoretic mobilities. HMG 14 and 17 were isolated by chromatography and amino acid analysis revealed that they were similar to their calf thymus analogues. A protein, named 2R and co-extracted with HMG 14, was also purified and analysed. Electrophoretic analyses of the proteins extracted by 0.75 M perchloric acid (PCA) or by 0.35 M NaCl from round and non-round spermatids, separated by centrifugal elutriation, showed that the four major HMG proteins disappear from nuclei in the oldest round spermatids, at the time the nuclear content of protein 2R and histone H1(0) increases in spermatids. Ubiquitin and HMG 19B were present in the round and elongating spermatids, but not in elongated spermatids which contained only protamine. The relation was considered between several protein changes and genetic inactivation and structural reorganization of the spermatid chromatin.     

The characterisation of 1SF monomer nucleosomes from hen oviduct and the partial characterisation of a third HMG14/17-like in such nucleosomes.

Nucleosomes released from oviduct nuclei during brief micrococcal nuclease digestions are enriched in transcribed sequences (bloom K.S. and Anderson, J.N. (1978) Cell, 15, 141-150). Such nucleosomes released into this 1Sf supernatant fraction are enriched in proteins HMG14, 17 and a third lower molecular weight protein which we show in this paper to be related to HMG14 and 17. This protein, which we call HMGY, runs as a doublet on polyacrylamide gels. A similar doublet is present in smaller quantities in chicken erythrocyte nuclei. Monomer nucleosomes in the 1SF supernatant have been separated by polyacrylamide gel electrophoresis into two main bands. The slower moving band contains the three HMG proteins HMG14, 17 and Y but lacks histone H1.     

Interactions between HMG proteins and the core sequence of DNaseI hypersensitive site 2 in the locus control region (LCR) of the human β-like globin gene cluster

HMG proteins are abundant chromosomal non-histone proteins. It has been suggested that the HMG proteins may play an important role in the structure and function of chromatin. In the present study, the binding of HMG proteins (HMG1/2 and HMG14/17) to the core DNA sequence of DNaseI hypersensitive site 2 (HS2core DNA sequence, -10681--10970 bp) in the locus control region (LCR) of the human b-like globin gene cluster has been examined by using both the in vitro nucleosome reconstitution and the gel mobility shift assays. Here we show that HMG1/2 can bind to the naked HS2core DNA sequence, however, HMG14/17 cannot. Using the in vitro nucleosome reconstitution we demonstrate that HMG14/17 can bind to the HS2core DNA sequence which is assembled into nucleosomes with the core histone octamer transferred from chicken erythrocytes. In contrast, HMG1/2 cannot bind to the nucleosomes reconstituted in vitro with the HS2core DNA sequence. These results indicate that the binding patterns between HMG proteins and the HS2core DNA sequence which exists in different states (the naked DNA or the in vitro reconstituted nucleosomal DNA) are quite different. We speculate that HMG proteins might play a critical role in the regulation of the human β-like globin gene's expression.     

ADP-ribosylation of chromosomal proteins and mouse mammary tumor virus gene expression. Glucocorticoids rapidly decrease endogenous ADP-ribosylation of nonhistone high mobility group 14 and 17 proteins

The relationship between endogenous ADP-ribosylation of chromosomal proteins and glucocorticoid-regulated mouse mammary tumor virus gene expression was investigated in cultured mouse mammary tumor cells. It was observed that glucocorticoids quickly decreased endogenous (ADP-ribose)n on the nonhistone high mobility group (HMG) 14 and 17 proteins. The half-time for this loss was 8 and 17 min, respectively, for the two proteins. (ADP-ribose)n on HMG 1 and 2 and on histone H1 was less susceptible to hydrolysis during glucocorticoid treatment. The rapid loss of (ADP-ribose)n from HMG 14 and 17 occurred in the same time frame as the induction of mouse mammary tumor virus RNA synthesis by glucocorticoids in these cells (Young, H. A., Shih, T. Y., Scolnick, E. M., and Parks, W. P. (1977) J. Virol. 21, 139-149). 3-Amino-benzamide, a specific inhibitor of (ADP-ribose)n synthetase, increased mouse mammary tumor virus RNA levels with an accompanying decrease in endogenous ADP-ribosylation of HMG 14 and 17. These results show that a decrease in endogenous ADP-ribosylation of HMG 14 and 17 is a consequence of glucocorticoid action and suggest that loss of (ADP-ribose)n from these proteins may be an important event in mouse mammary tumor virus gene expression.     

北京鸭HMGs和HP_1的分离纯化及其对细胞核体外转录的影响

本文用改进的CM-Sephadex C-25柱层析的方法,纯化了HMG各组份及HP_1。在北京鸭嗜多染红细胞核体外转录体系中测定了HP_1、HMGs及HP_1+HMGs对转录活性的影响,实验结果表明,单独的HMGs和单独的HP_1对转录活性均无显著性的影响,而HP_1+HMGs对转录活性有明显的抑制作用。