Loss of SUMO-specific protease 2 causes isolated glucocorticoid deficiency by blocking adrenal cortex zonal transdifferentiation in mice

SUMOylation is a dynamic posttranslational modification, that provides fine-tuning of protein function involved in the cellular response to stress, differentiation, and tissue development. In the adrenal cortex, an emblematic endocrine organ that mediates adaptation to physiological demands, the SUMOylation gradient is inversely correlated with the gradient of cellular differentiation raising important questions about its role in functional zonation and the response to stress. Considering that SUMO-specific protease 2 (SENP2), a deSUMOylating enzyme, is upregulated by Adrenocorticotropic Hormone (ACTH)/cAMP-dependent Protein Kinase (PKA) signalling within the zona fasciculata, we generated mice with adrenal-specific Senp2 loss to address these questions. Disruption of SENP2 activity in steroidogenic cells leads to specific hypoplasia of the zona fasciculata, a blunted reponse to ACTH and isolated glucocorticoid deficiency. Mechanistically, overSUMOylation resulting from SENP2 loss shifts the balance between ACTH/PKA and WNT/β-catenin signalling leading to repression of PKA activity and ectopic activation of β-catenin. At the cellular level, this blocks transdifferentiation of β-catenin-positive zona glomerulosa cells into fasciculata cells and sensitises them to premature apoptosis. Our findings indicate that the SUMO pathway is critical for adrenal homeostasis and stress responsiveness.

De-SUMOylation of FOXC2 by SENP3 promotes the epithelial-mesenchymal transition in gastric cancer cells

The impact of cellular oxidative stress in promoting the epithelial-mesenchymal transition (EMT) has been noticed. Our previous study shows that SENP3, a redox-sensitive SUMO2/3-specific protease, accumulates in a variety of cancers, but whether SENP3 and SUMOylation involve in the regulation of EMT is unclear. The present study uncovers a novel role of SENP3 in promoting the EMT process in gastric cancer via regulating an EMT-inducing transcription factor, forkhead box C2 (FOXC2). We demonstrate that the expression of mesenchymal marker genes and cell migration ability are enhanced in SENP3-overexpressing gastric cancer cells and attenuated in SENP3-knockdown cells. A nude mouse model and a set of patient's specimens suggest the correlation between SENP3 and gastric cancer metastasis. Biochemical assays identify FOXC2 as a substrate of SENP3. Meanwhile N-cadherin is verified as a target gene of FOXC2, which is transcriptionally activated by a SUMO-less FOXC2. Additionally, reactive oxygen species-induced de-SUMOylation of FOXC2 can be blocked by silencing endogenous SENP3. In conclusion, SENP3, which is increased in gastric cancer cells, potentiates the transcriptional activity of FOXC2 through de-SUMOylation, in favor of the induction of specific mesenchymal gene expression in gastric cancer metastasis.

Report on the international colloquium on cardio-oncology (rome, 12-14 march 2014)

Cardio-oncology is a relatively new discipline that focuses on the cardiovascular sequelae of anti-tumour drugs. As any other young adolescent discipline, cardio-oncology struggles to define its scientific boundaries and to identify best standards of care for cancer patients or survivors at risk of cardiovascular events. The International Colloquium on Cardio-Oncology was held in Rome, Italy, 12–14 March 2014, with the aim of illuminating controversial issues and unmet needs in modern cardio-oncology. This colloquium embraced contributions from different kind of disciplines (oncology and cardiology but also paediatrics, geriatrics, genetics, and translational research); in fact, cardio-oncology goes way beyond the merging of cardiology with oncology. Moreover, the colloquium programme did not review cardiovascular toxicity from one drug or the other, rather it looked at patients as we see them in their fight against cancer and eventually returning to everyday life. This represents the melting pot in which anti-cancer therapies, genetic backgrounds, and risk factors conspire in producing cardiovascular sequelae, and this calls for screening programmes and well-designed platforms of collaboration between one key professional figure and another.

The International Colloquium on Cardio-Oncology was promoted by the Menarini International Foundation and co-chaired by Giorgio Minotti (Rome), Joseph R Carver (Philadelphia, Pennsylvania, United States), and Steven E Lipshultz (Detroit, Michigan, United States). The programme was split into five sessions of broad investigational and clinical relevance (what is cardiotoxicity?, cardiotoxicity in children, adolescents, and young adults, cardiotoxicity in adults, cardiotoxicity in special populations, and the future of cardio-oncology). Here, the colloquium chairs and all the session chairs briefly summarised what was said at the colloquium. Topics and controversies were reported on behalf of all members of the working group of the International Colloquium on Cardio-Oncology.

Targeting constitutively activated β1 integrins inhibits prostate cancer metastasis

Disseminated prostate cancer cells must survive in circulation for metastasis to occur. Mechanisms by which these cells survive are not well understood. By immunohistochemistry of human tissues, we found that levels of β1 integrins and integrin-induced autophosphorylation of FAK (pFAK-Y397) are increased in prostate cancer cells in primary prostate cancer and lymph node metastases, suggesting that β1 integrin activation occurs in metastatic progression of prostate cancer. A conformation-sensitive antibody, 9EG7, was used to examine β1 integrin activation. We found that β1 integrins are constitutively activated in highly metastatic PC3 and PC3-mm2 cells, with less activation in low metastatic LNCaP and C4-2B4 cells. Increased β1 integrin activation as well as the anoikis resistance in prostate cancer cells correlated with metastatic potential in vivo. Knockdown of β1 integrin abrogated anoikis resistance in PC3-mm2 cells. In agreement with β1 integrin activation, PC3-mm2 cells strongly adhered to type I collagen and fibronectin, a process inhibited by the β1 integrin-neutralizing antibody mAb 33B6. mAb 33B6 also inhibited the phosphorylation of β1 integrin downstream effectors, focal adhesion kinase (FAK) and AKT, leading to a 3-fold increase in PC3-mm2 apoptosis. Systemic delivery of mAb 33B6 suppressed spontaneous metastasis of PC3-mm2 from the prostate to distant lymph nodes following intraprostatic injection and suppressed metastasis of PC3-mm2 to multiple organs following intracardiac injection. Thus, constitutively activated β1 integrins play a role in survival of PC3-mm2 cells in circulation and represent a potential target for metastasis prevention.

Cadherin-11 promotes the metastasis of prostate cancer cells to bone

Bone is the most common site of metastases from prostate cancer. The mechanism by which prostate cancer cells metastasize to bone is not fully understood, but interactions between prostate cancer cells and bone cells are thought to initiate the colonization of metastatic cells at that site. Here, we show that cadherin-11 (also known as osteoblast-cadherin) was highly expressed in prostate cancer cell line derived from bone metastases and had strong homophilic binding to recombinant cadherin-11 in vitro. Down-regulation of cadherin-11 in bone metastasis-derived PC3 cells with cadherin-11-specific short hairpin RNA (PC3-shCad-11) significantly decreased the adhesion of those cells to cadherin-11 in vitro. In a mouse model of metastasis, intracardiac injection of PC3 cells led to metastasis of those cells to bone. However, the incidence of PC3 metastasis to bone in this model was reduced greatly when the expression of cadherin-11 by those cells was silenced. The clinical relevance of cadherin-11 in prostate cancer metastases was further studied by examining the expression of cadherin-11 in human prostate cancer specimens. Cadherin-11 was not expressed by normal prostate epithelial cells but was detected in prostate cancer, with its expression increasing from primary to metastatic disease in lymph nodes and especially bone. Cadherin-11 expression was not detected in metastatic lesions that occur in other organs. Collectively, these findings suggest that cadherin-11 is involved in the metastasis of prostate cancer cells to bone.

Obesity, inflammation, and vascular disease: the role of the adipose tissue as an endocrine organ

Insulin resistance, both in nondiabetic and diabetic subjects, is frequently associated with obesity, particularly with an excess of central fat. With the growing prevalence of obesity, scientific interest in the biology of adipose tissue has been extended to the secretory products of adipocytes, since they are increasingly shown to influence several aspects in the pathogenesis of obesity-related diseases Until relatively recently, the role of fat itself in the development of obesity and its consequences was considered to be a passive one; adipocytes were considered to be little more than storage cells for fat. It is now clear that, in addition to storing calories as triglycerides, they also secrete a large variety of proteins, including cytokines, chemokines and hormone-like factors, such as leptin, adiponectin and resistin. This production of pro-atherogenic chemokines by adipose tissue is of particular interest since their local secretion, e.g. by perivascular adipose depots, may provide a novel mechanistic link between obesity and the associated vascular complications. Recent research has revealed many functions of adipocytokines extending far beyond metabolism, such as immunity, cancer and bone formation. This remarkable understanding is allowing us to more clearly define the role that adipocytes play in health and in obesity and how inflammatory mediators act as signaling molecules in this process. Moreover, on a molecular level, we are beginning to comprehend how such variables as hormonal control, exercise, food intake, and genetic variation interact and result in a given phenotype, and how pharmacological intervention may modulate adipose tissue biology.

Targeting of NEDD8 and its conjugates for proteasomal degradation by NUB1

NEDD8 is a ubiquitin-like protein that controls vital biological events through its conjugation to cullin family members. Recently, we identified a negative regulator of the NEDD8 conjugation system, NUB1, which interacts with NEDD8 and down-regulates NEDD8 expression post-transcriptionally (Kito, K., Yeh, E. T. H., and Kamitani, T. (2001) J. Biol. Chem. 276, 20603-20609). Here, we show that NUB1 possesses a ubiquitin-like domain at the N-terminal region and binds to S5a of the 19 S proteasome activator (PA700). A GST pull-down assay revealed that the overexpression of NUB1 leads to a greater precipitation of NEDD8 conjugates with GST-S5a, suggesting that NUB1 might have an adaptor function between S5a and NEDD8. Furthermore, proteasome inhibitors completely block NUB1-mediated down-regulation of NEDD8 expression. These results suggest that NUB1 recruits NEDD8 and its conjugates to the proteasome for degradation, providing a direct functional link between the NEDD8 conjugation system and the proteasomal degradation pathway.

p47phox is required for atherosclerotic lesion progression in ApoE(-/-) mice

NADPH oxidase is upregulated in smooth muscle cells (SMCs) in response to growth factor stimulation, concomitant with increased reactive oxygen species (ROS) production. We investigated the role of ROS production by NADPH oxidase in SMC responses to growth factors and in atherosclerotic lesion formation in ApoE(-/-) mice. SMCs from wild-type, p47phox(-/-), and gp91phox(-/-) mice differed markedly with respect to growth factor responsiveness and ROS generation. p47phox(-/-) SMCs had diminished superoxide production and a decreased proliferative response to growth factors compared with wild-type cells, whereas the response of gp91phox(-/-) SMCs was indistinguishable from that of wild-type SMCs. The relevance of these in vitro observations was tested by measuring atherosclerotic lesion formation in genetically modified (wild-type, p47phox(-/-), ApoE(-/-), and ApoE(-/-)/p47phox(-/-)) mice. ApoE(-/-)/p47phox(-/-) mice had less total lesion area than ApoE(-/-) mice, regardless of whether mice were fed standard chow or a high-fat diet. Together, these studies provide convincing support for the hypothesis that superoxide generation in general, and NADPH oxidase in particular, have a requisite role in atherosclerotic lesion formation, and they provide a rationale for further studies to dissect the contributions of ROS to vascular lesion formation.

NUB1, a NEDD8-interacting protein, is induced by interferon and down-regulates the NEDD8 expression

NEDD8, a ubiquitin-like protein, covalently conjugates to cullin family members. It appears to control vital biological events through its conjugation to cullins. To study how this conjugation pathway is regulated, we performed yeast two-hybrid screening by using NEDD8 as a bait and isolated a cDNA fragment encoding a potent down-regulator of the NEDD8 expression. Here, we report this novel regulator, NUB1 (NEDD8 Ultimate Buster-1). NUB1 is composed of 601 residues with a calculated 69.1-kDa molecular mass. It is an interferon-inducible protein and predominantly localized in the nucleus. The NUB1 message is specifically expressed in adult human testis, ovary, heart, and skeletal muscle tissues and is developmentally down-regulated in mouse embryos. In biochemical analysis, we found that NUB1 overexpression leads to severe reduction of NEDD8 monomer and NEDD8 conjugates in cells. This reduction is not due to down-regulation of NEDD8 transcription, but due to post-transcriptional mechanism. As expected from this activity, overexpression of NUB1 had a profound growth-inhibitory effect on U2OS cells. Thus, NUB1 is a strong down-regulator of the NEDD8 expression and appears to play critical roles in regulating biological events, including cell growth.

Modulation of C-reactive protein-mediated monocyte chemoattractant protein-1 induction in human endothelial cells by anti-atherosclerosis drugs

BACKGROUND

C-reactive protein (CRP) induces adhesion molecule expression by endothelial cells. However, the effects of CRP on chemokine expression by endothelial cells are not known.

METHODS AND RESULTS

We tested the effects of CRP on the production of the chemokines monocyte chemoattractant protein-1 (MCP-1) and RANTES in cultured human umbilical vein endothelial cells. The secretion of chemokines was assessed by ELISA. Incubation with 100 microgram/mL recombinant human CRP induced a 7-fold increase in MCP-1 but no change in RANTES secretion. We showed that the effect of CRP on MCP-1 was present even at 5 microgram/mL CRP, with stepwise increases as the CRP concentration was increased to 10, 50, and 100 microgram/mL. The effect of CRP on MCP-1 induction was not influenced by aspirin (at concentrations up to 1 mmol/L), but it was significantly inhibited by 5 micromol/L simvastatin. The peroxisome proliferator-activated receptor-alpha activators fenofibrate (100 micromol/L) and Wy-14649 (100 micromol/L) almost completely abolished the induction of MCP-1, but the peroxisome proliferator-activated receptor-gamma activator ciglitazone had only a moderate effect.

CONCLUSIONS

These results further strengthen the role of CRP in the pathogenesis of vascular inflammation and, likely, atherosclerosis and provide a crucial insight into a novel mechanism of action of anti-atherosclerosis drugs such as simvastatin and fenofibrate.

Regulation of apoptosis and cell cycle progression by MCL1. Differential role of proliferating cell nuclear antigen

MCL1 (ML1 myeloid cell leukemia 1), a Bcl-2 (B- cell lymphoma-leukemia 2) homologue, is known to function as an anti-apoptotic protein. Here we show in vitro and in vivo that MCL1 interacts with the cell cycle regulator, proliferating cell nuclear antigen (PCNA). This finding prompted us to investigate whether MCL1, in addition to its anti-apoptotic function, has an effect on cell cycle progression. A bromodeoxyuridine uptake assay showed that the overexpression of MCL1 significantly inhibited the cell cycle progression through the S-phase. The S-phase of the cell cycle is also known to be regulated by PCNA. A mutant of MCL1 that lacks PCNA binding (MCL1(Delta)(4A)) could not inhibit cell cycle progression as effectively as wild type MCL1. In contrast, MCL1(Delta)(4A) retained its anti-apoptotic function in HeLa cells when challenged by Etoposide. In addition, the intracellular localization of MCL1(Delta)(4A) was identical to that of wild type MCL1. An in vitro pull-down assay suggested that MCL1 is the only Bcl-2 family protein to interact with PCNA. In fact, MCL1, not other Bcl-2 family proteins, contained the PCNA-binding motif described previously. Taken together, MCL1 is a regulator of both apoptosis and cell cycle progression, and the cell cycle regulatory function of MCL1 is mediated through its interaction with PCNA.

Inhibition of coronary thrombosis and local inflammation by a noncarbohydrate selectin inhibitor

We tested the hypothesis that selectin inhibition with blocking antibodies or a small-molecular-weight inhibitor of L-, P-, and E-selectin, methoxybenzoylpropionic acid (MBPA), prevents thrombus formation in a canine coronary Folts' model. Cyclic flow variations (CFVs) were induced by crush injury and constriction of the left anterior descending coronary artery in dogs. Systemic infusion of antibodies to P- and L-selectin abolished CFVs, respectively, in 50% and 17% of treated dogs [P = not significant (NS)]. The combination of P- and L-selectin antibodies suppressed CFVs in 60% of treated dogs (P = NS). In contrast, systemic selectin blockade by intravenous infusion or local adventitial application of MBPA markedly reduced CFVs and, in addition, reduced myocardial myeloperoxidase (MPO) activity. We conclude that inhibition of L-, P-, and E-selectin binding by a small-molecular-weight, noncarbohydrate compound markedly reduces arterial thrombosis, whereas systemic administration of antibodies to L- and P-selectin fail to reproduce this antithrombotic effect. These results underscore the role of selectins in the pathogenesis of arterial thrombosis under high shear stress and suggest that inhibition of P- and L- selectin may not suffice to prevent thrombus formation in this model. The role of E-selectin in thrombus formation in this model awaits further testing.

GNB1L, a gene deleted in the critical region for DiGeorge syndrome on 22q11, encodes a G-protein beta-subunit-like polypeptide

CATCH 22 syndromes, which include DiGeorge syndrome and Velocardiofacial syndrome, are the most common cause of congenital heart disease which involve microdeletion of 22q11. Using a strategy including EST searching, PCR amplification and 5'-RACE, we have cloned a 1487 bp cDNA fragment from human heart cDNA library. The cloned GNB1L cDNA encodes a G-protein beta-subunit-like polypeptide, and the GNB1L gene is located in the critical region for DiGeorge syndrome. A comparison of GNB1L cDNA sequence with corresponding genomic DNA sequence revealed that this gene consists of seven exons and spans an approximately 60 kb genomic region. Northern blot analysis revealed GNB1L is highly expressed in the heart.

Direct proinflammatory effect of C-reactive protein on human endothelial cells

BACKGROUND

The acute-phase reactant C-reactive protein (CRP) is an important risk factor for coronary heart disease. However, the possible effects of CRP on vascular cells are not known.

METHODS AND RESULTS

We tested the effects of CRP on expression of adhesion molecules in both human umbilical vein and coronary artery endothelial cells. Expression of vascular cell adhesion molecule (VCAM-1), intercellular adhesion molecule (ICAM-1), and E-selectin was assessed by flow cytometry. Incubation with recombinant human CRP (10 microg/mL) for 24 hours induced an approximately 10-fold increase in expression of ICAM-1 and a significant expression of VCAM-1, whereas a 6-hour incubation induced significant E-selectin expression. Adhesion molecule induction was similar to that observed in endothelial cells activated with interleukin-1beta. In coronary artery endothelial cells, induction of ICAM-1 and VCAM-1 was already present at 5 microg/mL and reached a maximum at 50 microg/mL, at which point a substantial increase in expression of E-selectin was also evident. The CRP effect was dependent on presence of human serum in the culture medium, because no effect was seen in cells cultured with serum-free medium. In contrast, interleukin-1beta was able to induce adhesion molecule expression in the absence of human serum.

CONCLUSIONS

CRP induces adhesion molecule expression in human endothelial cells in the presence of serum. These findings support the hypothesis that CRP may play a direct role in promoting the inflammatory component of atherosclerosis and present a potential target for the treatment of atherosclerosis.

A dominant-negative UBC12 mutant sequesters NEDD8 and inhibits NEDD8 conjugation in vivo

NEDD8, a novel ubiquitin-like protein, has been shown to conjugate to proteins in a manner analogous to ubiquitination and sentrinization. Recently, human UBC12 was identified as a putative NEDD8 conjugation enzyme (E2). While investigating the in vivo function of UBC12, we found that the point mutant, UBC12(C111S), showed a dominant-negative effect on NEDD8 conjugation. This mutant, with a single Cys-to-Ser substitution at the conserved Cys residue in the E2 family, could specifically inhibit NEDD8 conjugation. We observed the dominant-negative effect on NEDD8 conjugation to substrates, including the C-terminal fragment of cullin-2 (Cul-2-DeltaN), full-length cullin-1, and also other uncharacterized target proteins. Interestingly, UBC12(C111S) formed a heterodimeric conjugate with NEDD8. This conjugate was stable under stringent conditions, including 6 m guanidine HCl, 8 m urea, 2% SDS, or 5% beta-mercaptoethanol. Our results are consistent with the hypothesis that UBC12(C111S) sequesters the NEDD8 monomer by forming a UBC12(C111S)-NEDD8 conjugate and, in turn, inhibits the subsequent transfer of NEDD8 to its targets. To examine the biological role of NEDD8 conjugation, this dominant-negative form of UBC12 was applied to a cell growth assay. Overexpression of UBC12(C111S) led to inhibition of growth in U2OS and HEK293 cells. Thus, this dominant-negative form of UBC12 could be useful in defining the role of NEDD8 modification in other biological systems.

Identification of a novel isopeptidase with dual specificity for ubiquitin- and NEDD8-conjugated proteins

Covalent conjugation of proteins by ubiquitin or ubiquitin-like molecules is an important form of post-translational modification and plays a critical role in many cellular processes. Similar to the concept of phosphorylation and dephosphorylation, these conjugates are regulated by a large number of deconjugating enzymes. Here, we report the cloning of a 2,141-base pair DNA fragment from human placenta cDNA library by a strategy that involves expressed sequence tag data base searching, polymerase chain reaction, and rapid amplification of cDNA ends. Nucleotide sequence analysis revealed that the cloned cDNA contains an open reading frame of 1,143 base pairs encoding a novel protease, USP21, which is composed of 381 residues with a calculated molecular mass of 43 kDa. The human USP21 gene is located on chromosome 1q21 and encodes a member of the ubiquitin-specific protease family with highly conserved Cys and His domains. The activity and specificity of USP21 were determined by using a COS cell expression system in vivo. We showed that USP21 is capable of removing ubiquitin from ubiquitinated proteins as expected. Furthermore, USP21 is capable of removing NEDD8 from NEDD8 conjugates but has no effect on Sentrin-1 conjugates. As expected from its biochemical activity, overexpression of USP21 has a profound growth inhibitory effect on U2OS cells. Thus, USP21 is the first ubiquitin-specific protease shown to have dual specificity for both ubiquitin and NEDD8 and may play an important role in the regulation of cell growth.

Ubiquitin-like proteins: new wines in new bottles

Ubiquitin is a small polypeptide that covalently modifies other cellular proteins and targets them to the proteasome for degradation. In recent years, ubiquitin-dependent proteolysis has been demonstrated to play a critical role in the regulation of many cellular processes, such as cell cycle progression, cell signaling, and immune recognition. The recent discovery of three new ubiquitin-like proteins, NEDD8, Sentrin/SUMO, and Apg12, has further broadened the horizon of this type of post-translational protein modification. This review will focus on the biology and biochemistry of the Sentrin/SUMO and NEDD8 modification pathways, which are clearly distinct from the ubiquitination pathway and have unique biological functions.

Regulation of microphthalmia-associated transcription factor MITF protein levels by association with the ubiquitin-conjugating enzyme hUBC9

The basic helix-loop-helix/leucine zipper (bHLH/ZIP) microphthalmia-associated transcription factor (MITF) regulates transcription of genes encoding enzymes essential for melanin biosynthesis in melanocytes and retinal pigmented epithelial cells. To determine how MITF activity is regulated, we used the yeast two-hybrid system to identify proteins expressed by human melanoma cells that interact with MITF. The majority of clones that showed positive interaction with a 158-amino-acid region of MITF containing the bHLH/ZIP domain (aa 168-325) encoded the ubiquitin conjugating enzyme hUBC9. The association of MITF with hUBC9 was further confirmed by an in vitro GST pull-down assay. Although hUBC9 is known to interact preferentially with SENTRIN/SUMO1, in vitro transcription/translation analysis demonstrated greater association of MITF with ubiquitin than with SENTRIN. Importantly, cotransfection of MITF and hUBC9 expression vectors resulted in MITF protein degradation. MITF protein was stabilized by the proteasome inhibitor MG132, indicating the role of the ubiquitin-proteasome system in MITF degradation. Serine 73, which is located in a region rich in proline, glutamic acid, serine, and threonine (PEST), regulates MITF protein stability, since a serine to alanine mutation prevented hUBC9-mediated MITF (S73A) degradation. Furthermore, we identified lysine 201 as a potential ubiquitination site. A lysine to arginine mutation abolished MITF (K201R) degradation by hUBC9 in vivo. Our experiments indicate that by targeting MITF for proteasome degradation, hUBC9 is a critical regulator of melanocyte differentiation.

Differential regulation of sentrinized proteins by a novel sentrin-specific protease

Sentrin-1, also called SUMO-1, is a protein of 101 residues that is distantly related to ubiquitin and another ubiquitin-like protein, NEDD8. Here we report the cloning of a novel sentrin-specific protease, SENP1, which has no homology to the known de-ubiquitinating enzymes or ubiquitin C-terminal hydrolases. However, SENP1 is distantly related to the yeast Smt3-specific protease, Ulp1. A COS cell expression system was used to demonstrate the activity of SENP1 in vivo. When HA-tagged sentrin-1 was co-expressed with SENP1, the higher molecular weight sentrin-1 conjugates were completely removed. Surprisingly, the major sentrinized band at 90 kDa remained intact. The disappearance of the high molecular weight sentrin-1 conjugates also coincided with an increase in free sentrin-1 monomers. SENP1 is also active against proteins modified by sentrin-2, but not those modified by ubiquitin or NEDD8. In addition, sentrinized PML, a tumor suppressor protein that resides in the nucleus, was selectively affected by SENP1, whereas sentrinized RanGAP1, which is associated with the cytoplasmic fibrils of the nuclear pore complex, remained intact. The inability of SENP1 to process sentrinized RanGAP1 in vivo is most likely due to its nuclear localization because SENP1 is active against sentrinized RanGAP1 in vitro. The identification of a nuclear-localized, sentrin-specific protease will provide a unique tool to study the role of sentrinization in the biological function of PML and in the pathogenesis of acute promyelocytic leukemia.

Modulation of vascular inflammation in vitro and in vivo by peroxisome proliferator-activated receptor-gamma activators

BACKGROUND

Peroxisome proliferator-activated receptor-gamma (PPARgamma) is expressed in atherosclerotic plaques and in endothelial cells. The possible effects of PPARgamma activators on endothelial activation and inflammatory response within the plaque are currently unknown.

METHODS AND RESULTS

We tested the hypothesis that PPARgamma activators inhibit vascular cell adhesion molecule (VCAM-1) and intercellular adhesion molecule (ICAM-1) expression in cultured endothelial cells (evaluated by flow cytometry) and homing of monocyte/macrophages to atherosclerotic plaques in vivo. In endothelial cells, the PPARgamma agonists troglitazone at 100 micromol/L and 15-deoxy-(Delta12,14)-prostaglandin J(2) (15d-PGJ2) at 20 micromol/L markedly attenuated the tumor necrosis factor-induced expression of VCAM-1 and ICAM-1. A significant inhibition of VCAM-1 expression was also evident at 5 and 10 micromol/L 15d-PGJ2 and 20 micromol/L troglitazone. Expression of E-selectin and PECAM-1 was not altered. To confirm the biological relevance of these results, we assessed the effects of troglitazone on monocyte/macrophage homing to atherosclerotic plaques in apoE-deficient mice. A 7-day treatment with troglitazone (400 mg/kg) significantly reduced monocyte/macrophage homing to atherosclerotic plaques (236+/-77 versus 177+/-43 macrophages, P=0.03); an even more striking inhibition was found at 3200 mg/kg troglitazone (344+/-76 versus 172+/-83 macrophages, P=0.005).

CONCLUSIONS

PPARgamma activators inhibit expression of VCAM-1 and ICAM-1 in activated endothelial cells and significantly reduce monocyte/macrophage homing to atherosclerotic plaques. These findings suggest that PPARgamma activators, currently used in treatment of type II diabetes, may have beneficial effects in modulating inflammatory response in atherosclerosis.

Identification of novel isoforms of human RAD52

In yeast, RAD52 has been shown to be essential for homologous recombination of DNA and to be involved in the repair of double-stranded DNA breaks. Recently, the human homologue of yeast RAD52, a 418-amino-acid protein, has been identified. In this study, we report three different isoforms of human RAD52 isolated from brain and testis cDNA libraries. cDNAs of these isoforms contain distinct insertions and encode truncated proteins due to translational frame-shifts. The three isoforms consist of 226-, 139-, and 118-amino-acid residues, and are designated as RAD52beta, gamma, and delta, respectively. The original RAD52 is termed as RAD52alpha in this paper. Messages of these isoforms have been detected in various human tissues. We found that the RAD52 isoforms were unable to interact with RAD52alpha because of partial defect of the self-interaction domain. Furthermore, like RAD52alpha, the isoforms have been shown to bind to both single-stranded and double-stranded DNA. These results suggest that RAD52beta, gamma, and delta might affect RAD52alpha function through their DNA-binding property and their inability to bind to RAD52alpha. Thus, these isoforms might act as dominant negative mutants or negative regulators of RAD52alpha.

The von Hippel-Lindau tumor suppressor gene product promotes, but is not essential for, NEDD8 conjugation to cullin-2

We have previously shown that human cullin-2 (Cul-2) is covalently modified at Lys-689 by NEDD8 (Wada, H., Yeh, E. T. H., and Kamitani, T. (1999) Biochem. Biophys. Res. Commun. 257, 100-105). Cul-2 has also been reported to form a multiprotein complex, Cul-2.VBC, with the von Hippel-Lindau tumor suppressor gene product (pVHL) and elongins B and C. In this study, using an in vivo coexpression system in COS cells, we show that NEDD8 conjugation to Cul-2 is promoted by coexpression with wild-type pVHL and elongins B and C. Interestingly, tumorigenic mutants and deletion mutants of pVHL, which are unable to form a Cul-2.VBC complex, do not have the activity to promote NEDD8 conjugation to Cul-2. These results suggest that the complex formation is required for NEDD8 conjugation to Cul-2. Furthermore, we used a pVHL-deficient cell line, 786-0, to show that Cul-2 is poorly but clearly conjugated by NEDD8, indicating that pVHL is not the only molecule that promotes NEDD8 conjugation to Cul-2. Taken together, the VBC complex appears to have ligase activity in the conjugation of NEDD8 to Cul-2.

Identification of the activating and conjugating enzymes of the NEDD8 conjugation pathway

NEDD8 is a ubiquitin-like molecule that can be covalently conjugated to a limited number of cellular proteins, such as Cdc53/cullin. We have previously reported that the C terminus of NEDD8 is efficiently processed to expose Gly-76, which is required for conjugation to target proteins. A combination of data base searches and polymerase chain reaction cloning was used to identify a cDNA encoding human UBA3, which is 38% identical to the yeast homologue, 22% identical to human UBA2, and 19% identical to the C-terminal region of human UBE1. The human UBA3 gene is located on chromosome 3p13 and gave rise to a 2.2-kilobase pair transcript that was detected in all tissues. Human UBA3 could be precipitated with glutathione S-transferase (GST)-NEDD8, but not with GST-ubiquitin or GST-sentrin-1. Moreover, human UBA3 could form a beta-mercaptoethanol-sensitive conjugate with NEDD8 in the presence of APP-BP1, a protein with sequence homology to the N-terminal half of ubiquitin-activating enzyme. We have also cloned human UBC12 and demonstrated that it could form a thiol ester linkage with NEDD8 in the presence of the activating enzyme complex. Identification of the activating and conjugating enzymes of the NEDD8 conjugation pathway should allow for a more detailed study of the role of NEDD8 modification in health and disease.

Identification of NEDD8-conjugation site in human cullin-2

NEDD8 is a novel ubiquitin-like protein that has been shown to conjugate to nuclear proteins in a manner analogous to ubiquitination and sentrinization. Recently, human cullin-4A was reported to be conjugated by a single molecule of NEDD8. Here, we show that human cullin-2 is also conjugated by a single molecule of the NEDD8. The C-terminal 171-amino-acid residues in human cullin-2 are sufficient for NEDD8-conjugation. In addition, the equivalent C-terminal fragments of other cullins have been shown to be conjugated by NEDD8. Mapping of the NEDD8-conjugation site revealed that Lys-689 in human cullin-2 is conjugated by NEDD8. Interestingly, the Lys residue at position 689 in cullin-2 is conserved in all cullin family members, including human cullin-1, -2, -3, -4A, -4B, and -5 and yeast cullin (Cdc53), suggesting the possibility that other cullin family members are conjugated by NEDD8/Rub1 at a Lys residue of equivalent position.

Molecular cloning and characterization of human AOS1 and UBA2, components of the sentrin-activating enzyme complex

Sentrin-1/SUMO-1 is a novel ubiquitin-like protein, which can covalently modify a limited number of cellular proteins. Here we report the identification of the sentrin-activating enzyme complex, which consists of two proteins AOS1 and UBA2. Human AOS1 is homologous to the N-terminal half of E1, whereas human UBA2 is homologous to the C-terminal half of E1. The human UBA2 gene is located on chromosome 19q12. Human UBA2 could form a beta-mercaptoethanol-sensitive conjugate with members of the sentrin family, but not with ubiquitin of NEDD8, in the presence of AOS1. Identification of human UBA2 and AOS1 should allow a more detailed analysis of the enzymology of the activation of ubiquitin-like proteins.

Selectin blockade prevents antigen-induced late bronchial responses and airway hyperresponsiveness in allergic sheep

Antigen challenge can elicit an allergic inflammatory response in the airways that involves eosinophils, basophils, and neutrophils and that is expressed physiologically as a late airway response (LAR) and airway hyperresponsiveness (AHR). Although previous studies have suggested that E-selectin participates in these allergic airway responses, there is little information concerning the role of L-selectin. To address this question, we examined the effects of administering an L-selectin-specific monoclonal antibody, DU1-29, as well as three small molecule selectin binding inhibitors, on the development of early airway responses (EAR), LAR and AHR in allergic sheep undergoing airway challenge with Ascaris suum antigen. Sheep treated with aerosol DU1-29 before antigen challenge had a significantly reduced LAR and did not develop postchallenge AHR. No protective effect was seen when sheep were treated with a nonspecific control monoclonal antibody. Treatment with DU1-29 also reduced the severity of the EAR to antigen. Similar results were obtained with each of the three small molecule selectin inhibitors at doses that depended on their L-, but not necessarily E-selectin inhibitory capacity. The inhibition of the EAR with one of the inhibitors, TBC-1269, was associated with a reduction in histamine release. Likewise, treatment with TBC-1269 reduced the number of neutrophils recovered in bronchoalveolar lavage (BAL) during the time of LAR and AHR. TBC-1269, given 90 min after antigen challenge also blocked the LAR and the AHR, but this protection was lost if the treatment was withheld until 4 h after challenge, a result consistent with the proposed time course of L-selectin involvement in leukocyte trafficking. These are the first data indicating that L-selectin may have a unique cellular function that modulates allergen-induced pulmonary responses.

Regulation of reactive oxygen species-induced apoptosis and necrosis by caspase 3-like proteases

Reactive oxygen species (ROS) and caspases have been implicated as potential mediators of cell death. However, their mechanistic relationship remains to be elucidated. Here we investigated the roles of caspases in apoptosis and necrosis induced by ROS, generated by the mixture of xanthine and xanthine oxidase (X/XO). A low concentration of XO (0.025 U/ml) induced DNA fragmentation with little cellular membrane damage 3 h after treatment, suggesting the induction of apoptosis. The same treatment induced membrane blebbing, a morphological change typical of apoptosis, 15 min after treatment. A high concentration of XO (0.1 U/ml) damaged cell membranes with little concomitance of DNA fragmention, suggesting the induction of necrosis. ROS also activated caspase 3-like proteases and caspase 3 itself together with the release of cytochrome c which might be the cause of caspase activation. Apoptosis induced by low concentrations of XO and necrosis induced by high concentrations of XO was inhibited by z-DEVD-CH2F, an irreversible inhibitor of caspase 3. However, rapid induction of membrane blebbing was not inhibited by z-DEVD-CH2F. These results suggest that both apoptosis and necrosis could be induced by ROS through the activation of caspase 3-like protease; however, caspase 3 activation is not needed for ROS-induced membrane blebbing.

Inhibition of mitochondrial respiratory chain complex I by TNF results in cytochrome c release, membrane permeability transition, and apoptosis

Mitochondria have been shown to play a key role in apoptosis induction. However, the sequence of changes that occur in the mitochondria in the initial step of apoptosis has not been clearly elucidated. Here, we showed that mitochondrial respiratory chain (MRC) complex I was inhibited during the early phase of TNF- or serum withdrawal apoptosis. The importance of complex I inhibition in apoptosis is also supported by the observation that rotenone, an inhibitor of complex I but not that of other complexes, could induce apoptosis in a manner comparable to TNF. We hypothesized that inhibition of complex I could affect electron flow through other complexes leading to cytochrome c release by an antioxidant-sensitive pathway and caspase 3 activation followed by the induction of membrane permeability transition (MPT). This hypothesis is supported by the following observations: (1) TNF and rotenone induced MPT and cytochrome c release; (2) TNF-induced complex I inhibition was observed prior to cytochrome c release and MPT induction; (3) MPT induction was inhibited by a caspase 3 inhibitor, z-DEVD-CH2F, and an antioxidant pyrrolidine dithiocarbamate (PDTC), whereas cytochrome c release was only inhibited by PDTC. Thus, these results suggest that MRC complex I plays a key role in apoptosis signalings.

Cleavage of the C-terminus of NEDD8 by UCH-L3

NEDD8 is a novel ubiquitin-like protein that has been shown to conjugate to nuclear proteins in a manner analogous to ubiquitination and sentrinization. To identify proteins that are involved in the NEDD8-conjugation and de-conjugation pathway, the yeast two-hybrid system was used to screen a human heart cDNA library using NEDD8 as a bait. Seven strongly positive clones were found to contain a cDNA insert encoding the ubiquitin C-terminal hydrolase, UCH-L3. In vitro GST pull-down assay demonstrated that UCH-L3 bound to both NEDD8 and ubiquitin. In contrast, UCH-L3 did not bind to sentrin-1, sentrin-2, or sentrin-3. Recombinant UCH-L3, but not UCH-L1, was able to cleave the C-terminus of NEDD8. Thus, UCH-L3 can function as a C-terminal hydrolase for both NEDD8 and ubiquitin. UCH-L3 may play a physiologically significant role in the cleavage of the C-terminus of NEDD8, which is required for NEDD8 to conjugate to target proteins.

Identification of three major sentrinization sites in PML

Acute promyelocytic leukemia arises following a reciprocal chromosome translocation t(15;17), which generates PML-retinoic acid receptor alpha fusion proteins (PML-RARalpha). We have shown previously that wild type PML, but not PML-RARalpha, is covalently modified by the sentrin family of ubiquitin-like proteins (Kamitani, T., Nguyen, H. P., Kito, K., Fukuda-Kamitani, T., and Yeh, E. T. H. (1998) J. Biol. Chem. 273, 3117-3120). To understand the mechanisms underlying the differential sentrinization of PML versus PML-RARalpha, extensive mutational analysis was carried out to determine which Lys residues are sentrinized. We show that Lys65 in the RING finger domain, Lys160 in the B1 Box, and Lys490 in the nuclear localization signal contributes three major sentrinization sites. The PML mutant with Lys to Arg substitutions in all three sites is expressed normally, but cannot be sentrinized. Furthermore, the triple substitution mutant is localized predominantly to the nucleoplasm, in contrast to wild type PML, which is localized to the nuclear bodies. Thus, sentrinization of PML, in the context of the RING finger and the B1 box, regulates nuclear body formation. Furthermore, we showed that sentrinization of PML-RARalpha could be restored by overexpression of sentrin, but not by retinoic acid treatment. These studies provide novel insight into the pathobiochemistry of acute promyelocytic leukemia and the sentrinization pathway.

Life and death of the cell

The study of apoptosis is among the most active and fast-moving areas of biomedical research. New insights into the genetic and biochemical mechanisms involved in this morphologically distinct form of cell death are providing a better understanding of many different diseases and may permit the development of prophylactic and therapeutic agents to regulate and preserve normal cellular functions.

Characterization of a second member of the sentrin family of ubiquitin-like proteins

Sentrin is a novel ubiquitin-like protein that can be conjugated to other proteins in a manner analogous to ubiquitination. Two additional cDNA sequences that encode proteins highly homologous to sentrin have been reported to GenBankTM. It is not known whether these sentrin-like proteins could also function as protein modifiers. In this report, a second member of the sentrin family was characterized in detail. Sentrin-2 is a 95-amino acid polypeptide that is 46% identical and 66% homologous to sentrin-1. Northern blot analysis showed that the sentrin-2 message was expressed in all tissues, but was barely detectable in the liver and placenta. The ability of sentrin-2 to conjugate to other proteins was tested by expressing hemagglutinin epitope-tagged sentrin-2 in COS cells. Western blot analysis showed that sentrin-2 could be transferred to other proteins in a pattern similar to that of sentrin-1 conjugation and had similar C-terminal processing. We further showed that both sentrin-1 and sentrin-2 could covalently modify RanGAP1, a Ran GTPase-activating protein critically involved in nuclear transport. Immunocytochemical analysis showed that sentrin-2 derivatives were highly enriched in the nucleus. Taken together, our results demonstrate that sentrin-2 is another protein modifier for the sentrinization pathway.

Covalent modification of PML by the sentrin family of ubiquitin-like proteins

PML, a RING finger protein with tumor suppressor activity, has been implicated in the pathogenesis of acute promyelocytic leukemia that arises following a reciprocal chromosomal translocation that fuses the PML gene with the retinoic acid receptor alpha (RARalpha) gene. Immunocytochemical analysis has demonstrated that PML is co-localized with a novel ubiquitin-like protein in the nuclear bodies, which could be disrupted by the PML-RARalpha fusion protein. The physical nature of this co-localization is unknown. Using a COS cell expression system, we show that PML is covalently modified by all three members of the sentrin family of ubiquitin-like proteins. Covalent modification of PML requires the conserved Gly residue near the C termini of sentrin proteins. Sentrinization of PML is highly specific because neither NEDD8 nor ubiquitin could modify PML. Similar specificity is also observed for the covalent modification of RanGAP1 by the sentrin member of ubiquitin-like proteins. These observations highlight the fine substrate specificity of the sentrinization pathway. In acute promyelocytic leukemia, two forms of PML-RARalpha fusion proteins have been reported. Remarkably, both forms of PML-RARalpha fusion proteins could not be sentrinized. Thus differential sentrinization of PML and PML-RARalpha could play an important role in regulating the biological function of PML and in the pathogenesis of acute promyelocytic leukemia.

Inhibition of alpha4 integrin and ICAM-1 markedly attenuate macrophage homing to atherosclerotic plaques in ApoE-deficient mice

BACKGROUND

Monocytes/macrophages play a central role in many stages of development of atherosclerotic plaques, including the conversion to an unstable morphology with rupture and fissuring. A better understanding of the mechanism of attachment of monocytes to activated endothelial cells would prove useful in developing strategies aimed at blocking this initial step. Here we describe a novel in vivo model that directly demonstrates homing of macrophages to atherosclerotic plaques.

METHODS AND RESULTS

Macrophages were loaded with fluorescent microspheres and injected intravenously into 40-week-old apolipoprotein E-deficient mice. After 48 hours, labeled macrophages were observed adhering to all stages of atherosclerotic plaques from the early fatty streak to mature calcified lesion. The mean number of macrophages adherent to atherosclerotic plaques located in the proximal 1 mm of the aortic root was quantitated by counting serial frozen sections and found to be 143 +/- 17 macrophages per aortic root. Pretreatment of the apolipoprotein E-deficient mice with monoclonal antibodies directed against the alpha-subunit of the alpha4beta1 integrin and against intracellular cell adhesion molecule (ICAM-1) reduced macrophage homing by 75% and 65%, respectively, as compared with isotype-matched controls (P<.05). Pretreatment with a monoclonal antibody directed against E-selectin did not significantly reduce macrophage homing.

CONCLUSIONS

These data demonstrate that alpha4 integrin and ICAM-1 play major roles in the recruitment of macrophages to atherosclerotic plaques, whereas E-selectin does not appear to contribute significantly to macrophage recruitment. This model will be useful for studying the mechanism of macrophage recruitment to atherosclerotic plaques and for evaluating the efficacy of inhibitors to adhesion molecules in preventing macrophage recruitment.

Differential effects of endothelin receptor activation on cyclic flow variations in rat mesenteric arteries

BACKGROUND

Cyclic flow variations (CFVs) represent repetitive cycles of platelet adherence-aggregation and vasoconstriction, followed by dislodgment of platelet thrombi and restoration of blood flow at the site of vascular injury. Although activation of endothelin A (ETA) and endothelin B (ETB) receptors leads to vasoconstriction and nitric oxide release, respectively, the roles of endogenous endothelin-1 (ET-1) and its receptors in CFVs are unknown.

METHODS AND RESULTS

A side branch of a mesenteric artery of male Wistar rats was cannulated and a short segment of the artery was mechanically injured to induce CFVs. After 20 minutes of saline infusion, either saline (negative control), BQ-123 (ETA receptor antagonist, 10 microg/min), BQ-788 (ETB receptor antagonist, 10 microg/min), or sarafotoxin S6c (ETB receptor agonist, 10 ng/min) was infused for 20 minutes from the side branch into the injured arterial segment. Percent (%) luminal stenosis as well as proximal and distal vessel diameters were observed and quantitatively measured every minute using intravital video microscopy and a micrometer-calibrated video screen. Both BQ-123 and sarafotoxin S6c significantly reduced CFVs represented by the mean luminal stenosis (BQ-123=29+/-13% and sarafotoxin S6c=27+/-11% reduction, respectively; P<.05 for both, compared with saline). In contrast, BQ-788 significantly increased CFVs (33+/-6% increase, P<.05 compared with saline). Moreover, the inhibitory effect of sarafotoxin S6c on CFVs was completely abolished in the presence of N(omega)-nitro-L-arginine methyl ester (L-NAME) (a nitric oxide synthase inhibitor, 10(-5) mol/L) in superfusate over the arteries (16.1+/-5% increase, P=NS compared with saline in the presence of L-NAME). In addition, BQ-123 caused a significant increase in the diameter of the vessel distal to the injured segment (12+/-4% increase, P<.05 compared with saline).

CONCLUSIONS

Endogenous ET-1 release from sites of vascular injury contributes to CFVs and vasomotor tone in the rat mesenteric artery CFV model. ETA and ETB receptors have differential roles in CFVs: ETA receptor antagonism and ETB receptor stimulation reduce CFVs, the latter at least partially through increased nitric oxide formation.

Characterization of NEDD8, a developmentally down-regulated ubiquitin-like protein

NEDD8 is a novel 81 amino acid polypeptide which is 60% identical and 80% homologous to ubiquitin. Northern blot analysis showed that the NEDD8 message was developmentally down-regulated. In adult tissues, NEDD8 expression was mostly restricted to the heart and skeletal muscle. Antiserum specific for NEDD8 detected a 6-kDa monomer in SK-N-SH, BJAB, and HL60 cell lysates. A 14-kDa band was also detected in BJAB, HL60, and SK-MEL28 but not in SK-N-SH and K562 cell lysates. An approximately 90-kDa band was detected in all cell lines tested. Thus, NEDD8 is likely to be conjugated to other proteins in a manner analogous to ubiquitination. However, the conjugation pattern of NEDD8 is entirely different from that of ubiquitin in all cell lines tested. To study NEDD8 conjugation in more detail, hemagglutinin-epitope-tagged NEDD8 was expressed in COS cells. Western blot analysis revealed an NEDD8 monomer and a series of higher molecular weight NEDD8-conjugated proteins or NEDD8 multimers. Immunocytochemical analysis showed that NEDD8 expression was highly enriched in the nucleus and was much weaker in the cytosol. In contrast, ubiquitin expression was detectable equally well in the nucleus and cytosol. Mutational analysis showed that the C terminus of NEDD8 was efficiently cleaved and that Gly-76 was required for conjugation of NEDD8 to other proteins. Taken together, NEDD8 provides another substrate for covalent protein modification and may play a unique role during development.

Preferential interaction of sentrin with a ubiquitin-conjugating enzyme, Ubc9

Sentrin is a ubiquitin-like molecule that has been shown to interact with the death domains of Fas and tumor necrosis factor receptor 1 (TNFR1), PML, Rad51, Rad52, and RanGAP1. We have reported previously that sentrin can be conjugated to other proteins in a manner analogous to protein ubiquitination (Kamitani, T., Nguyen, H. P., and Yeh, E. T. H. (1997) J. Biol. Chem. 272, 14001-14004). Furthermore, the conserved C-terminal Gly-Gly residues are required for sentrinization to occur. To identify enzymes which play a role in sentrinization, the yeast two-hybrid system was used to screen a human placenta cDNA library using sentrin as bait. A strong positive interacting clone was found to contain a cDNA insert encoding the ubiquitin-conjugating enzyme, Ubc9. The interaction between sentrin and Ubc9 required the ubiquitin domain and the C-terminal Gly-Gly residues of sentrin. This interaction appears to be specific because sentrin could only interact weakly with UbcH5B, but could not interact with HHR6B, UbcH6 nor E2-EPF. In vitro translated sentrin could be precipitated by a GST-Ubc9 fusion protein, but not by glutathione S-transferase. A beta-mercaptoethanol-sensitive Ubc9-sentrin conjugate could also be identified in the in vitro binding assay. Substitution of the conserved cysteine residue of Ubc9 by serine abolished the formation of the Ubc9-sentrin conjugate. Taken together, Ubc9 is a strong candidate to be the key conjugating enzyme in the sentrinization pathway.

Activation-induced aggregation and processing of the human Fas antigen. Detection with cytoplasmic domain-specific antibodies

Fas (APO1/CD95) is a type 1 transmembrane protein critically involved in receptor-mediated apoptosis. Previous studies have shown that Fas exists in monomeric form in resting cells and aggregates upon cross-linking to form a complex that serves to recruit additional signaling molecules to the cell membrane. To study the molecular fate of the Fas antigen following receptor activation, a monoclonal antibody specific for the cell death domain of Fas has been generated. This monoclonal antibody (3D5) could be used in Western blot analysis using total cell lysates to identify different forms of Fas antigens without immunoprecipitation. High molecular mass (>200 kDa), SDS- and beta-mercaptoethanol-resistant Fas aggregates were formed immediately following receptor cross-linking, and a 97-kDa band (p97) was detected about 2 h later. p97 could be detected by antibodies against either the death domain or the C terminus. However, p97 could not be precipitated by antiextracellular domain antibodies. Thus, p97 most likely represents a processed form of the high molecular weight Fas aggregates. Although p97 generation followed a similar time course as CPP32 activation and poly(ADP-ribose) polymerase cleavage, it could not be inhibited by cysteine protease, calpain, or proteasome inhibitors.

Preferential modification of nuclear proteins by a novel ubiquitin-like molecule

Sentrin is a novel ubiquitin-like protein that protects cells against both anti-Fas and tumor necrosis factor-induced cell death. Antiserum recognizing the N terminus of sentrin revealed the presence of a 18-kDa sentrin monomer, a 90-kDa band (p90), and multiple high molecular mass bands. Because sentrin possesses the conserved Gly-Gly residues near the C terminus, it is likely that these additional bands represent conjugation of sentrin to other proteins in a manner that is similar to the ubiquitination pathway. Transient expression of hemagglutinin epitope-tagged sentrin mutants in COS cells demonstrated that the sentrin C terminus is cleaved, which allows it to be conjugated to other proteins via the conserved C-terminal Gly residue. Immunocytochemical staining and cell fractionation analysis demonstrated that sentrin monomer is localized predominantly to the cytosol. However, p90 and the majority of sentrinized proteins appeared to be localized to the nucleus. When the conserved Gly-Gly residues of sentrin were changed to Gly-Ala, only sentrin monomer and p90 but not the high molecular mass bands were observed. Thus, p90 generation appears to be required for the formation of high molecular mass bands in the nucleus. Taken together, sentrinization represents a novel pathway for nuclear protein modification, which is distinct from ubiquitination.

Activation of CPP32-like protease in tumor necrosis factor-induced apoptosis is dependent on mitochondrial function

Mitochondria have been implicated in apoptosis, however, the precise mechanisms whereby mitochondria exert their effect are not clear. To gain further insights, we generated a panel of cells from ML-1a cells that were rendered respiration deficient by ethidium bromide treatment. Two respiration-deficient clones were subsequently reconstituted by fusion with platelets. Respiration-deficient clones were resistant to TNF-induced apoptosis, whereas ML-1a and reconstituted clones were sensitive. In contrast, inhibition of proliferation and induction of differentiation by TNF were still observed in respiration deficient clones, suggesting a selective requirement of respiration in TNF-induced apoptosis. Furthermore the apoptosis machinery is not completely altered in respiration-deficient cells because they underwent apoptosis after staurosporine treatment. Next, we showed that apoptosis induced by TNF and staurosporine were blocked by z-DEVD-CH2F, an inhibitor of CPP32-like cysteine protease, suggesting the involvement of CPP32-like protease in both apoptosis signaling pathways. Interestingly, TNF activated CPP32-like protease in the parental and reconstituted clones but not in respiration-deficient clones, and staurosporine in all clones. Thus, the apoptosis signaling block in respiration-deficient clones is located at a step before CPP32-like protease activation, which can be bypassed by staurosporine.

A cyclic hexapeptide is a potent antagonist of alpha 4 integrins

The alpha 4 integrins mediate leukocyte adhesion to specific counter-receptors, including vascular cell adhesion molecule-1 (VCAM-1), the fibronectin splice variant containing connecting segment 1 (CS1), and mucosal addressin cell adhesion molecule-1. A series of cyclized peptides based on the LDV sequence of CS1 were synthesized and assayed for inhibition of alpha 4 integrin binding. The most potent peptide, C*WLDVC* (where * indicates disulfide-linked residues), inhibited alpha 4 beta 1-dependent binding of lymphocytes to VCAM-1 and CS1 with half-maximal inhibition achieved at 1 to 3 microM of peptide. The peptide proved more potent when the lymphocytes were activated with 1 mM MnCl2; half-maximal inhibition was reached at 0.4 and 0.05 microM for VCAM-1 and CS1, respectively. This represents a 100- to 800-fold increase in potency over a linear CS1 peptide in these same assays. C*WLDVC* also inhibited alpha 4 beta 7-dependent lymphocyte binding to the ligands mucosal addressin cell adhesion molecule-1, VCAM-1 and CS1. Immunoprecipitation of radiolabeled integrin indicated that the peptide could bind alpha 4 beta 1 and alpha 4 beta 7 directly and elute alpha 4 beta 1 from a CS1-conjugated agarose resin. The peptide showed selectivity for alpha 4 integrins in that it effectively inhibited alpha 4 beta 1-dependent, but not alpha 5 beta 1-dependent, binding of cells to intact fibronectin. Due to its small size and potency, C*WLDVC* may serve as a useful tool for the study of alpha 4 integrin biology and the development of small molecule therapeutics.

A cyclic hexapeptide is a potent antagonist of alpha 4 integrins

The alpha 4 integrins mediate leukocyte adhesion to specific counter-receptors, including vascular cell adhesion molecule-1 (VCAM-1), the fibronectin splice variant containing connecting segment 1 (CS1), and mucosal addressin cell adhesion molecule-1. A series of cyclized peptides based on the LDV sequence of CS1 were synthesized and assayed for inhibition of alpha 4 integrin binding. The most potent peptide, C*WLDVC* (where * indicates disulfide-linked residues), inhibited alpha 4 beta 1-dependent binding of lymphocytes to VCAM-1 and CS1 with half-maximal inhibition achieved at 1 to 3 microM of peptide. The peptide proved more potent when the lymphocytes were activated with 1 mM MnCl2; half-maximal inhibition was reached at 0.4 and 0.05 microM for VCAM-1 and CS1, respectively. This represents a 100- to 800-fold increase in potency over a linear CS1 peptide in these same assays. C*WLDVC* also inhibited alpha 4 beta 7-dependent lymphocyte binding to the ligands mucosal addressin cell adhesion molecule-1, VCAM-1 and CS1. Immunoprecipitation of radiolabeled integrin indicated that the peptide could bind alpha 4 beta 1 and alpha 4 beta 7 directly and elute alpha 4 beta 1 from a CS1-conjugated agarose resin. The peptide showed selectivity for alpha 4 integrins in that it effectively inhibited alpha 4 beta 1-dependent, but not alpha 5 beta 1-dependent, binding of cells to intact fibronectin. Due to its small size and potency, C*WLDVC* may serve as a useful tool for the study of alpha 4 integrin biology and the development of small molecule therapeutics.

A tissue plasminogen activator/P-selectin fusion protein is an effective thrombolytic agent

BACKGROUND

P-selectin is expressed on the surface of activated endothelial cells and platelets. We hypothesized that a tissue plasminogen activator (TPA)/P-selectin fusion protein would have not only thrombolytic activity but also might target TPA to the thrombi. In addition, it seemed possible that this chimeric protein would competitively inhibit the binding of native P-selectin on endothelial cells and platelets to leukocytes and thus further promote thrombolysis.

METHODS AND RESULTS

The full-length, plasminogen activator inhibitor-1-resistant form of TPA (TPAIR) together with two TPAIR/P-selectin fusion constructs (P280IR and P121IR) were expressed with the use of baculovirus vectors. After infection of Sf21 cells with the recombinant baculovirus, recombinant TPAIR and P-selectin/TPAIR fusion proteins were purified with the use of metal ion chromatography. The intact protease activity of TPAIR and the ligand binding capability of P-selectin were confirmed through indirect chromogenic and cell binding assays, respectively. These molecules were assessed both in vitro and in vivo for thrombolytic activity. In vitro clot lysis assays indicated equal efficacy of TPAIR, P280IR, and P121IR (P > .5). The in vivo efficacy was tested in a cyclic flow variation model with the use of the rat mesenteric artery. Compared with saline control treatment, reduction in cyclic flow variations was significant (P < .05) and similar (P > .5) among TPAIR, P280IR, and P121IR. No significant bleeding was noted among treated animals.

CONCLUSIONS

Chimeric proteins P280IR and P121IR have clot lysis activities that are similar to TPAIR both in vitro and in vivo. These chimeric proteins also bind to P-selectin ligand in vitro. Thus, these proteins may provide an efficient method of targeting TPA to the thrombotic region. Further experimental analysis with the use of larger animal coronary occlusion models should help determine the future value of these proteins as clinical therapeutic agents.

Protection against Fas/APO-1- and tumor necrosis factor-mediated cell death by a novel protein, sentrin

Fas/APO-1 and TNF receptor 1 share a common signaling motif in their cytoplasmic tail called the "death domain." Using the death domain as bait in the yeast two-hybrid system, several death domain-containing proteins that participate in cell death signaling have been identified. Here we report the isolation of a novel protein, sentrin, which interacts with Fas/APO-1 and TNF receptor 1 but not with FADD/MORT1 or CD40. Two-hybrid interaction assays reveal that sentrin associates only with the signal-competent forms of Fas/APO-1 or TNF receptor 1 death domains. Sentrin is a novel protein of 101 amino acids with homology to ubiquitin, Nedd8, and a Saccharomyces cerevisiae protein, Smt3. When overexpressed, sentrin provides protection against both anti-Fas/APO-1 and TNF-induced cell death.

Protection against Fas/APO-1- and tumor necrosis factor-mediated cell death by a novel protein, sentrin

Fas/APO-1 and TNF receptor 1 share a common signaling motif in their cytoplasmic tail called the "death domain." Using the death domain as bait in the yeast two-hybrid system, several death domain-containing proteins that participate in cell death signaling have been identified. Here we report the isolation of a novel protein, sentrin, which interacts with Fas/APO-1 and TNF receptor 1 but not with FADD/MORT1 or CD40. Two-hybrid interaction assays reveal that sentrin associates only with the signal-competent forms of Fas/APO-1 or TNF receptor 1 death domains. Sentrin is a novel protein of 101 amino acids with homology to ubiquitin, Nedd8, and a Saccharomyces cerevisiae protein, Smt3. When overexpressed, sentrin provides protection against both anti-Fas/APO-1 and TNF-induced cell death.

Dietary marine lipids suppress continuous expression of interleukin-1 beta gene transcription

n-3 Polyunsaturated fatty acids abundant in marine lipids suppress certain inflammatory and immune reactions, and dietary marine lipid supplements have antiinflammatory effects in experimental and human autoimmune disease. Previous work by other investigators demonstrated that dietary marine lipid supplements suppressed production of cytokines from stimulated human peripheral blood mononuclear cells ex vivo. The present study further documents the ability of n-3 fatty acids to inhibit cytokine formation, and in part defines the mechanism of the inhibition of production of interleukin-1 beta (IL-1 beta) by dietary n-3 fatty acid. Female BALB/c mice were each fed a fat-free balanced diet to which was added either a refined fish oil (FO) preparation as a source of n-3 fatty acid, or beef tallow (BT), which consisted primarily of saturated and monoenoic fatty acids. After ingesting the experimental diets for periods ranging from 3 to 12 wk. spleen cell preparations were stimulated ex vivo with either lipopolysaccharide (LPS) or phorbol 12-myristate 13-acetate (PMA), and proIL-1 beta mRNA (IL-1 beta mRNA) was measured by northern analysis. Levels of IL-1 beta mRNA in both LPS- and PMA-stimulated cells from BT-fed mice were elevated to a greater extent than in cells from FO-fed mice, at most concentrations of LPS and PMA. Stability of LPS-stimulated mRNA levels after actinomycin D was similar for BT and FO groups, indicating that lower levels of IL-1 mRNA with FO groups was related to suppressed IL-1 gene transcription and not due to accelerated transcript degradation. Nuclear run-on transcription assays revealed a more transient expression of the IL-1 beta gene in LPS-stimulated spleen cells from FO-fed mice compared to cells from BT-fed mice. We conclude that dietary marine lipids reduce transient expression of the IL-1 beta gene in stimulated splenic monocytic cells. Preliminary results from nuclear run-on transcription assays indicate that n-3 fatty acids may not change the initial rate of gene transcription but may promote more rapid shutting down of transcription of this gene after induction than do alternative lipids.