Margherita Cuomo scite author profile

To determine the properties of the cAMP-specific, rolipramsensitive phosphodiesterases (cAMP-PDEs) that are expressed in different organs, monoclonal and polyclonal antibodies were raised against different epitopes present in the cAMP-PDE sequences. Of the several antibodies generated against peptides and fusion proteins, one monoclonal and four polyclonal antibodies recognized both the native cAMP-PDEs as well as the denatured proteins on Western immunoblot analysis. An immunoprecipitation assay demonstrated that these antibodies recognized the recombinant rat PDE4A, PDE4B, and PDE4D proteins with different avidity. The polyclonal antibody K118 and the monoclonal M3S1 were most specific for rat PDE4B and PDE4D forms, respectively, whereas the AC55 antiserum displayed the highest affinity for PDE4A forms. This selectivity was confirmed by Western blot analysis using recombinant rat PDE4A, PDE4B, and PDE4D proteins expressed in a heterologous system. These antibodies were used to characterize the cAMP-PDEs expressed in the rat brain. An immunoblot of extract of cortex and cerebellum demonstrated that at least seven different polypeptides specifically cross-reacted with the different antibodies, indicating that multiple cAMP-PDEs are expressed in this tissue. On the basis of cross-reactivity with PDE4D but not PDE4A or PDE4B antibodies, 93-and 105-kDa PDE4D species were detected in the cortex and cerebellum extract. These forms are different from the 68-kDa PDE4D form expressed in endocrine cells after hormonal stimulation. Although the 93-kDa form was recovered in both the soluble and particulate fractions, the 105-kDa polypeptide was mostly particulate in the cortex and cerebellum extracts. PDE4B forms of 90 -87 kDa were recovered in both soluble and particulate compartments of the brain extract. These forms were different from the previously identified PDE4A variants of 110 and 75 kDa. These data demonstrate that the presence of multiple cAMP-PDE genes is translated into cAMP-PDE proteins of different sizes and distinct immunological properties and that multiple variants derived from these cAMP-PDE genes are expressed in different regions of the brain and different subcellular compartments. These immunological tools will be useful to identify different cAMP-PDE forms expressed in organs targeted for pharmacological intervention with PDE4 inhibitors.The high affinity, cAMP-specific phosphodiesterases [type 4 according to the nomenclature proposed by Beavo et al. (1994)] are a class of enzymes with similar kinetic properties that are inhibited by the antidepressant rolipram and structurally related compounds. Although the presence of these forms has long been recognized, their distinctive properties are becoming evident only recently (Conti et al., 1995b). Early attempts to purify these forms have been hampered by their low abundance and instability (Conti and Swinnen, 1990). The molecular mass attributed to this group of enzymes ranges between 29 and 89 kDa (Conti and Swinnen, 1990). The definition of th...

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The cAMP-specific Phosphodiesterase PDE4D3 Is Regulated by Phosphatidic Acid Binding

Grange¹,

Sette²,

Cuomo³

et al. 2000

Journal of Biological Chemistry

111

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Hormones and growth factors induce in many cell types the production of phosphatidic acid (PA), which has been proposed to play a role as a second messenger. We have previously shown in an acellular system that PA selectively stimulates certain isoforms of type 4 cAMP-phosphodiesterases (PDE4). Here we studied the effect of endogenous PA on PDE activity of transiently transfected MA10 cells overexpressing the PA-sensitive isoform PDE4D3. Cell treatment with inhibitors of PA degradation, including propranolol, induced an accumulation of endogenous PA accompanied by a stimulation of PDE activity and a significant decrease in both cAMP levels and protein kinase A activity. Furthermore, in FRTL5 cells, which natively express PDE4D3, pretreatment with compounds inducing PA accumulation prevented both cAMP increase and cAMP-responsive element-binding protein phosphorylation triggered by thyroid-stimulating hormone. To determine the mechanism of PDE stimulation by PA, endogenous phospholipids were labeled by preincubating MA10 cells overexpressing PDE4D3 with [ 32 P]orthophosphate. Immunoprecipitation experiments showed that PA was specifically bound to PDE4D3, supporting the hypothesis that PDE4D3 activation occurs through direct binding of PA to the protein. PA binding site on PDE4D3 was characterized by engineering deletions of selected regions in the N-terminal regulatory domain of the enzyme. Deletion of amino acid residues 31-59 suppressed both PAactivating effect and PA binding, suggesting that this region rich in basic and hydrophobic residues contains the PA binding site. These observations strongly suggest that endogenous PA can modulate cAMP levels in intact cells, through a direct activation of PDE4D3.Phosphatidic acid (PA) 1 is a quantitatively minor phospholipid produced in the cell via different pathways and in particular as a result of phospholipase D or diacylglycerol kinase activation. Although it has long been considered a mere intermediate in the biosynthetic pathways of the major phospholipids or a precursor of lipid mediators such as diacylglycerol and lyso-PA, it is now suspected to play a role as a second messenger involved in several signal transduction pathways (1, 2). In response to hormones or growth factors, PA accumulates very rapidly in a large number of cell types (3). A number of studies have implicated PA in a variety of cellular functions. PA appears to be involved in cell proliferation induced by growth factors (4 -6) or cytokines (7). Phospholipase D overexpression promotes cytoskeletal reorganization (8), and phospholipase D-mediated PA generation is an essential step in the stimulation of actin stress fiber assembly (9). A role of PA in membrane trafficking is supported by several observations (10 -12). On the other hand, many reports have pointed to the ability of PA to modify, in cell-free conditions, the activity of proteins and enzymes playing key roles in signal transduction. Examples include phospholipase C␥1 (13), the RasGTPase activating protein (14, 15), phosphatidylino...

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Characterization of a hormone-inducible, high affinity adenosine 3',5'-cyclic monophosphate phosphodiesterase from the rat Sertoli cell

Conti

Iona²,

Cuomo³

et al. 1995

Biochemistry

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In previous reports we have shown that FSH and beta-adrenergic agonists regulate the levels of mRNA and increase the activity of a high affinity cAMP phosphodiesterase (cAMP-PDE) in the immature rat Sertoli cell in culture. To identify and characterize the hormone-inducible form(s), the cAMP-PDE activity of the Sertoli cell was partially purified and its properties were determined using biochemical and immunological tools. The cAMP-PDE activity present in the 100,000g supernatant of Sertoli cell extracts was purified more than 2000-fold by four HPLC chromatographic steps. The major purified form of cAMP-PDE had a specific activity of 1-2 mumol/(min.mg of protein). Polyacrylamide gel electrophoresis and silver staining analysis showed that a 67-68 kDa polypeptide comigrated with the major peak of cAMP hydrolytic activity. The molecular weight of the crude or purified enzyme determined by gel filtration and sucrose density gradients was 150,000, suggesting that the native enzyme is an oligomeric structure. This PDE hydrolyzed cAMP with a Km of 1.97 +/- 0.26 microM. The hydrolysis of cAMP was neither inhibited nor stimulated by cGMP concentrations lower than 50 microM. Cyclic nucleotide catalysis required Mg2+, but was insensitive to Ca2+. The activity of this form was competitively inhibited by several inhibitors with the following potency: rolipram > RO 20-1724 > methylisobutylxanthine > cilostamide = milrinone. Because mRNAs derived from two distinct PDE4B and PDE4D genes are present in the Sertoli cell, selective and nonselective PDE antibodies were used to determine the origin of the inducible PDE protein.(ABSTRACT TRUNCATED AT 250 WORDS)

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Production and Characterization of the Murine Monoclonal Antibody 2G10 to a Human T4-Tyrosinase Epitope

Cuomo¹,

Nicotra²,

Apollonj³

et al. 1991

Journal of Investigative Dermatology

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Two murine monoclonal antibodies to peripheral blood monocyte differentiation antigens discriminate within M5 acute non‐lymphoid leukemia (ANLL) cells

Lopez¹,

Rossi²,

Santoro³

et al. 1987

American J Hematol

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Two murine monoclonal antibodies (MoAbs), LAM3 and LAM7 of the IgG1 isotype, which were produced by immunization with normal peripheral blood monocytes (PBM), were assayed in their specificity by indirect immunofluorescence against a panel of normal as well as leukemic cells. Both LAM3 and LAM7 were reactive with PBM while LAM3 also recognized platelets. Neither MoAb showed reactivity with erythrocytes, granulocytes, or resting and mitogen activated B and T lymphocytes. The reactivity with bone marrow cells correlated with the degree of monocyte contamination. Among the 62 cases of leukemia tested, which included three cases of B-CLL, 19 cases of ALL, and 40 cases of ANLL, both MoAbs reacted highly homogenously only with M5b ANLL cells. These findings indicate that the two MoAbs, which recognize two distinct epitopes, represent useful markers in the differential diagnosis of M5b ANLL.

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