Biochemical and morphological changes in the nuclear matrix prepared from apoptotic HL‐60 cells: Effect of different stabilizing procedures

Apoptotic cell death is characterized by deep morphological changes that take place in the nucleus. It is unclear whether modifications also occur in the nuclear matrix, a mainly proteinaceous structure that conceivably acts as a nuclear framework. We have investigated whether biochemical and morphological alterations of the nuclear matrix prepared from apoptotic HL‐60 cells were dependent on the manipulations to which isolated nuclei were subjected before DNase I digestion and 2 M NaCl extraction. Our results showed that the stabilizing procedures employed to preserve the inner fibrogranular network and nucleolar remnants of the matrix (i.e., a 37°C incubation; exposure to sodium tetrathionate at 4°C; exposure to sodium tetrathionate at 37°C) had no effect on the protein recovery of apoptotic nuclear matrices, which was always approximately two‐ to fivefold less than in control matrices. Moreover, one‐ and two‐dimensional gel analysis of nuclear matrix proteins showed that, in apoptotic samples, striking quantitative changes were present, as compared with controls. Once again, these changes were seen irrespective of the stabilizing procedures employed. Also, transmission electron microscope analysis showed similar morphological alterations in all types of apoptotic nuclear matrices. By contrast, the immunofluorescent distribution of the 240‐kDa NuMA protein seen in apoptotic samples was more sensitive to the stabilizing treatments. Our results indicate that the biochemical and morphological changes of the apoptotic nuclear matrix are largely independent of the isolation protocols and strengthen the contention that destruction of the nuclear matrix network is one of the key events leading to apoptotic nuclear destruction. J. Cell. Biochem. 74:99–110, 1999. © 1999 Wiley‐Liss, Inc.     

Alterations of the actin polymerization status as an apoptotic morphological effector in HL-60 cells

The alterations of the cytoskeletal actin network have been implicated as a morphological effector in apoptosis. However, studies directly linking actin change to the morphological events in apoptosis are lacking. This study quantitatively examined the effect of actin alteration on the camptothecin (CPT)-induced apoptotic process in HL-60 cells. Actin alteration was induced by two distinctive types of agent: the polymerization-stimulating agent, Jasplakinolide (Jas), and the polymerization-blocking agent, cytochalasin B (CB). The actin polymerization status was measured by two complementary methods: the cell pellet-based DNase I inhibition method, and the individual cell-based quantitative fluorescence image analysis (QFIA) assay. Actin polymerization induced by Jas caused apoptosis directly. By contrast, CB, an actin polymerization-blocking agent, partially inhibited CPT-induced apoptosis. A similar inhibition of the CPT-induced apoptosis response was observed with a more specific actin depolymerization agent, cytochalasin E. The alterations of the actin polymerization status occurred in three sequential steps during the apoptotic process: first polymerization, followed by depolymerization, and finally degradation. However, compared with CPT-induced apoptosis, Jas-induced apoptosis was characterized by pronounced actin polymerization that corresponded morphologically with prominent membrane blebbing, but less apoptotic body formation. Furthermore, DNase I activity, which is normally inhibited by G-actin, was specifically detected in Jas-treated cells. These results show that the regulation of actin polymerization is an important apoptotic morphological effector, whereas the alterations of the actin polymerization status by chemicals have profound effects not only on altering the morphology of apoptotic cells, but on apoptosis induction in HL-60 cells as well.     

Altered expression of nuclear matrix proteins in etoposide induced apoptosis in HL－60 cells

INTRODUCTIIONThe nuclear matrix is an essential component ofthe nucleus which is important for the nuclear structural integrity and specific genomic functions[1, 2].Several articles have reported that the nuclear matrix, as a higher order framework structures, mightbe disassembled du-ring the apoptotic process[3-5].Accordingly3 nuclear lamins A/C or B have beenfound to decrease in apoptotic thymocytes[6], Tcells[7], and carcinoma cell line[8, 9]. The nucleolar protein B23, an obscure ma…     

Cytoskeletal influences on nuclear shape in granulocytic HL-60 cells

Background  

During granulopoiesis in the bone marrow, the nucleus differentiates from ovoid to lobulated shape. Addition of retinoic acid (RA) to leukemic HL-60 cells induces development of lobulated nuclei, furnishing a convenient model system for nuclear differentiation during granulopoiesis. Previous studies from our laboratory have implicated nuclear envelope composition as playing important roles in nuclear shape changes. Specifically noted were: 1) a paucity of lamins A/C and B1 in the undifferentiated and RA treated cell forms; 2) an elevation of lamin B receptor (LBR) during induced granulopoiesis.     

Synthesis of non-natural C2-homo-ceramide and its apoptotic activity against HL-60 cells

Non-natural ceramide analogues, C2-homo-ceramide and C2-homo-dihydroceramide, were prepared from L-aspartic acid via L-homo-serine. The apoptotic activities of the synthesized ceramide analogues were examined in HL-60 human leukemia cells. C2-homo- and C2-bishomo-ceramide indicate low but considerable apoptotic activities in comparison with C2-ceramide.     

Growth and morphological changes induced by lithium chloride treatment of HL-60 cells

HL-60 cells were grown in culture and their proliferative behaviour and response to lithium were studied. Treatment of cells with lithium concentrations of up to 5 mM enhanced cell proliferation, however above 5 mM lithium, cell growth was inhibited. Cell viability remained above 90% with concentrations of lithium below 10 mM. With increasing concentrations of lithium cell death increased rapidly to about 70% after 3 days at 50 mM. DNA synthesis was also strongly inhibited by concentrations of lithium above 5 mM. At 50 mM lithium, [3H]-thymidine incorporation was 1%. Electron microscopy seems to indicate that the plasma membrane is the main target for lithium cytotoxicity, whilst lithium uptake studies suggest that cytotoxicity might be related to the accumulation of lithium within the cells.     

Biochemical and morphological characterization of a plasma membrane-enriched fraction from bovine parathyroid cells

A fraction of enriched plasma membranes from bovine parathyroid cells has been prepared by differential centrifugation. Biochemical characterization shows that this fraction has a specific activity enrichment of 7.2-fold in ouabain-sensitive Na+-K+ ATPase, and 3.5-fold in 5'-nucleotidase. Less than 4% of the total mitochondria and lysosomes are present within the plasma membranes, while microsomal contamination accounts for 14% of total specific activity. Parathyroid hormone radioimmunoassay also reveals the presence of some secretory granules within the plasma membrane fraction. The characteristic morphological aspect of the unusual surface membrane is shown by freeze-fracture electron microscopy. In the enriched pellets, vesicles identified as having a plasma membrane origin have variable sizes, and 50% show an inside-out conformation. Even though the plasma membrane fraction described herein is not absolutely free from contamination by other subcellular components, this protocol represents the first attempt to purify surface membrane from parathyroid tissue and provide the starting material for understanding, at a molecular level, the properties of extracellular Ca2+ regulation and its coupling with secretion of parathyroid hormone.     

A nuclear cAMP binding protein in retinoic acid-treated HL-60 cells

A cAMP binding protein was detected in HL-60 cells using photoaffinity labeling with 8-azido [32P]cAMP. The binding protein was found in a 0.35 M NaCl nuclear protein extract from untreated HL-60 cells and from the HL-60 cells induced to mature with retinoic acid. While the quantity of the cAMP binding protein did not change following the induced differentiation, a second form of the subunit, altered in charge, was present at 3 and 5 days after retinoic acid treatment. The findings indicate that the regulatory subunit of the type II cAMP-dependent protein kinase could be involved in nuclear functions associated with human myeloid cell differentiation.     

Purification and characterization of small molecular weight myeloperoxidase from human promyelocytic leukemia HL-60 cells

Human myeloperoxidase was purified to homogeneity from human promyelocytic leukemia HL-60 cells. A small molecular weight myeloperoxidase was found in these cells and was separated from three other forms of myeloperoxidase of large molecular weight by carboxymethyl-Sepharose CL-6B column chromatography and Sephacryl S-200 gel filtration. The S20,w values of the molecular weights of the small and large myeloperoxidases were found to be 5.2 and 8.07 S, respectively, by sucrose density gradient centrifugation. From these S20,w values, the molecular weights of the small and large myeloperoxidases were estimated to be 79 000 and 153 000, respectively. On electrophoresis in sodium dodecyl sulfate--polyacrylamide gel, the small and large myeloperoxidases each gave two bands of protein corresponding to molecular weights of 59 300 and 10 150. The small myeloperoxidase could not be distinguished from the large enzymes by the Ouchterlony double immunodiffusion test, but it could be distinguished from them by the microcomplement fixation text. One of the three large molecular weight myeloperoxidases was eluted at a lower concentration of methyl alpha-D-mannoside than the other two on concanavalin A--Sepharose chromatography. This suggested that the heterogeneity of the myeloperoxidases with large molecular weight may be partly due to differences in their sugar moieties.     

Lethal toxin from Clostridium sordellii induces apoptotic cell death by disruption of mitochondrial homeostasis in HL-60 cells

Lethal toxin (LT) from Clostridium sordellii (strain IP82) inactivates in glucosylating the small GTPases Ras, Rap, Ral and Rac. In the present study we show that LT-IP82 induces cell death via an intrinsic apoptotic pathway in the myeloid cell-line HL-60. LT-IP82 was found to disrupt mitochondrial homeostasis as characterized by a decrease in mitochondrial transmembrane potential and cardiolipin alterations, associated with the release of cytochrome c in the cytosol. Time-course studies of caspase activation revealed that caspase-9 and caspase-3 were activated before caspase-8. Moreover, although LT-IP82-induced cell death was abrogated by caspase-inhibitors, these inhibitors did not suppress mitochondrial alterations, indicating that caspase activation occurs downstream of mitochondria. Protection of mitochondria by Bcl-2 overexpression prevented mitochondrial changes as well as apoptosis induction. Furthermore, evidence is provided that LT-IP82-induced apoptosis is not a consequence of cortical actin disorganization, suggesting that Rac inactivation does not initiate the apoptotic process. Cell exposure to LT-IP82 leads to a co-localization of the toxin with a mitochondrial marker within 2 h. Therefore, we suggest that LT-IP82 could act at the mitochondrion level independently of its enzymatic effect on small GTPases.     

Requirement of tyrosine-phosphorylated Vav for morphological differentiation of all-trans-retinoic acid-treated HL-60 cells.

Our previous data demonstrated that cellular and nuclear tyrosine-phosphorylated Vav associate with phosphoinositide 3-kinase during all-trans-retinoic acid-dependent granulocytic differentiation of HL-60 cells. In this study, aimed to analyze the mechanism by which Vav is recruited and activated, we report that the Src homology 2 domain of Vav interacts with tyrosine-phosphorylated proteins in a differentiation-dependent manner. Two adaptor proteins, Cbl and SLP-76, were identified, showing a discrete distribution inside the cells, with Cbl absent from the nuclei and SLP-76 particularly abundant in the nuclear compartment. Of note, Vav interacts with the tyrosine kinase Syk, which is also present in the nuclear compartment and may phosphorylate Vav in vitro when cells differentiate. Inhibition of Syk activity by piceatannol prevents both in vitro and in vivo Vav tyrosine phosphorylation, its association with the regulatory subunit of phosphoinositide 3-kinase, and the nuclear modifications typically observed during granulocytic differentiation of this cell line. These findings suggest that tyrosine-phosphorylated Vav and its association with phosphoinositide 3-kinase play a crucial role in all-trans-retinoic acid-induced reorganization of the nucleoskeleton, which is responsible for the changes in nuclear morphology observed during granulocytic differentiation of HL-60 cells.     

Increased radiation toxicity by enhanced apoptotic clearance of HL-60 cells in the presence of the pentapeptide thymopentin, which selectively binds to apoptotic cells

Radiotoxic insult to cells is associated with genetic instability and heritable damage [Mutat. Res. 517 (2002) 173]. A strengthened response to such insult by enhanced apoptotic clearance, which would be associated with anti-inflammatory [Nature 390 (1997) 350; Nature 407 (2000) 784] and anti-necrotic intercellular signaling [Nature 418 (2002) 191], has been previously reported. The pentapeptide thymopentin (TP5) improves immunological parameters in cancer patients following radiotherapy without clinically observable side effects. We assessed the effects of TP5 on human promyeloid leukemia HL-60 cells exposed to therapeutic (2Gy) doses of X-rays. We observed an increased accumulation of cells in the G2/M phase of the cell cycle after irradiation when treated with TP5. However, TP5 had no effect on the cell cycle distribution of non-irradiated HL-60 cells. Additionally, TP5 treatment of irradiated cells increased the number of cells undergoing apoptosis. Furthermore, TP5 was found to selectively bind to apoptotic cells. These findings represent a promising and novel approach employing TP5-mediated modulation of cellular radiation response to augment both clinical gain in radiation oncology and safety measures for radiation protection.     

Intranuclear distribution of the human myeloid cell nuclear differentiation antigen in HL-60 cells

Based on solubility properties, the human myeloid cell nuclear differentiation antigen exists as at least two distinct populations. Most is easily extracted from isolated nuclei in 0.35 M NaCl, while 20 percent resists such treatment. Compared to undigested nuclei, both the amount of myeloid cell nuclear differentiation antigen (MNDA) released from nuclei after DNase I treatment and the amount resisting further extraction in 0.35 M NaCl increased after DNA was digested with DNase I. Under these conditions, there was a concomitant decrease in the amount of MNDA that was extractable with 0.35 M NaCl. Mixing nuclear protein extracts that contain MNDA with nuclei from cells that do not express this protein demonstrated that the MNDA redistributes from the freely soluble form to the nuclear residual fraction as a consequence of DNase I digestion. These data are consistent with a model in which the amount of MNDA that is tightly bound to salt-washed nuclei is held constant in the presence of an excess of unassociated MNDA in the nucleus, and that the level of MNDA binding to this nuclear fraction increases in proportion to the extent of DNA damage resulting from DNase I digestion.     

A nuclear protein associated with lethal heat shock of HL-60 cells.

The responses to stress in living cells are well known. Thermal stress causes decreased protein synthesis as well as rapid induction of heat shock proteins (hsps), or alternately termed stress proteins (sps). The exposure of cultured promyelocytic leukemia cells (HL-60) to a 45 degrees C lethal heat shock for 1 h elicited synthesis and phosphorylation of a polypeptide M(r) 48,000 and pI 7.5 (p 48) as visualized by two-dimensional polyacrylamide gel ultra-microelectrophoresis. p 48, which was not observed at sublethal temperatures (39 and 41 degrees C), was synthesized during all phases of the cell cycle but was phosphorylated only in G0 + G1 and S-phases. The appearance of p 48 was marked by a concomitant and reciprocal reduction in hsps or sps 70 and 90. Distinct protease V8 fragment maps of p 48, hsps 70 and 90 in conjunction with immunochemical determination indicated vast differences in their primary structures. These facts suggest that p 48 was not formed from coalesced breakdown products of hsps 70 or 90. Western blotting showed that p 48 possessed the same immunochemical determinants as two other proteins with the same molecular mass but different isoelectric points. In an association assay, p 48 was shown to bind with actins and hsp 90 from HL-60 nuclei.     

Pharmacological characterization of the histamine uptake system in HL-60 human promyelocytic leukemia cells

Serotonin and histamine H₁, H₂ receptor agonists or antagonists inhibited [³H]histamine uptake by HL-60 cells, according to the following order of potency: impromidine >4-MH>histamine>AET>PEA and: cimetidine, histamine>diphenhydramine, serotonin. It is concluded that histamine uptake by HL-60 cells was specifically controlled by the H₂ type histamine receptor and that this active process might be involved in pathophysiological regulations in leukemic and normal granulocytic precursors and in the control of histamine levels in peripheral blood and tissues in man.     

Prostaglandin A2 activates intrinsic apoptotic pathway by direct interaction with mitochondria in HL-60 cells

HL-60 cells treated by prostaglandin (PG) A₂ showed characteristics of apoptosis such as accumulation of hypodiploid and annexin V positive cells, condensed and fragmented nuclei, cytochrome c (Cyt C) release from mitochondria and activation of caspase-1, -2, -3, -7 and -9. PGA₂-induced cell death was rescued by inhibitors of caspase-9 and -3, but PGA₂-induced Cyt C release was not prevented by caspase inhibitors. During Cyt C release by PGA₂, mitochondrial transmembrane potential was maintained and mitochondrial permeability transition pore was not formed. In addition, anti-apoptotic BCL-2 family proteins like BCL-2 and BCL-XL, and ROS scavengers including ascorbic acid and 2,2,6,6-tetramethyl-1-piperidinyloxy were not able to inhibit Cyt C release as well as apoptosis by PGA₂. Finally, it was shown that PGA₂-induced Cyt C release in vitro from purified mitochondria in the absence of cytosolic components. Furthermore, thiol-containing compounds such as N-acetylcysteine, l-cysteine and monothioglycerol prevented Cyt C release, and hence induction of apoptosis. Taken together, these results suggest that PGA₂ activates intrinsic apoptotic pathway by directly stimulating mitochondrial outer membrane permeabilization to release Cyt C, in which thiol-reactivity of PGA₂ plays a pivotal role.     

Biochemical and morphological characterization of the intra-acrosomal antigen SP-10 from human sperm

The human sperm protein SP-10 was previously defined as a "primary vaccine candidate" by a World Health Organization Taskforce on Contraceptive Vaccines. By one- and two-dimensional immunoblots, we show that SP-10, extracted from ejaculated human sperm, demonstrated a polymorphism of immunogenic peptides from 18 to 34 kDa, a pattern that was conserved from individual to individual and was not altered by reducing agents. The majority of the antigenic peptides possessed isoelectric points of approximately 4.9. Immunocytochemistry on testis sections indicated that SP-10 was localized to round spermatids and spermatozoa within the adluminal compartment of the seminiferous epithelium. Immunofluorescence showed that SP-10 was not associated with the surface of acrosome-intact, ejaculated sperm. Light and electron microscopic immunocytochemistry localized SP-10 throughout the acrosome, and electron microscopic evidence demonstrated a bilaminar array in association with the inner aspect of the outer acrosomal membrane and the outer aspect of the inner acrosomal membrane. After induction of the acrosome reaction with the ionophore A23187, SP-10 remained displayed on the sperm head in association with the inner acrosomal membrane and equatorial segment. The results indicate that the MHS-10 monoclonal antibody may be used as a marker of acrosome development in the human and as a probe to evaluate acrosome status. The results also support the hypothesis that inhibition of sperm-egg interaction by anti-SP-10 monoclonal antibody may occur as a result of antigen exposure following the acrosome reaction.