β-Lactam-based approach for the chemical programming of aldolase antibody 38C2

Irreversible chemical programming of monoclonal aldolase antibody (mAb) 38C2 has been accomplished with β-lactam-equipped targeting modules. A model study was first performed with β-lactam conjugated to biotin. This conjugate efficiently and selectively modified the catalytic site lysine (LysH93) of mAb 38C2. We then conjugated a β-lactam to a cyclic-RGD peptide to chemically program mAb 38C2 to target integrin receptors α_vβ₃ and α_vβ₅. The chemically programmed antibody bound specifically to the isolated integrin receptor proteins as well as the integrins expressed on human melanoma cells. This approach provides an efficient and versatile solution to irreversible chemical programming of aldolase antibodies.     

Hatch opening and closing on oxygenation and deoxygenation of C60 bathysphere

The structures and stabilities of C₆₀O_n, where n=1-6, 9, have been calculated using the AM1 Hamiltonian and the program mopac 6.0, and by the density functional technique B3LYP/6-31G* at the AM1 geometry using Gaussian 98. Modes of oxygen addition considered were ethers, epoxides, ketones and ketenes. It is confirmed that in C₆₀O a carbon-carbon bond on a pent-hex edge is replaced by an ether linkage. For higher levels of oxygen addition the replacement of a carbon-carbon bond by two ketone groups becomes important. Particularly stable structures are formed if the additions are on the same, or adjacent, C₆ rings of the C₆₀ structure where the oxygen atoms cooperate in opening up large holes in the molecule. Molecules of greatest stability have a mixture of ether oxygen atoms on pent-hex edges and diketone additions on hex-hex edges. A particularly important stable structure is the mixed ether/ketone isomer of C₆₀O₆ in which a hinged C₅O₂ hatch lid containing two ketone oxygen atoms is opened revealing a hatch 4-5 Å in diameter. An even larger hole of approximately 6 Å in diameter is opened up in a particularly stable isomer of C₆₀O₉ which contains three ether and six ketone groups. Removal of the oxygen atoms from these structures and reoptimisation leads to hatch closing and C₆₀ is reformed.     

An efficient chemical approach to bispecific antibodies and antibodies of high valency

Irreversible chemical programming of monoclonal aldolase antibody (mAb) 38C2 has been accomplished with β-lactam equipped mono- and bifunctional targeting modules, including a cyclic-RGD peptide linked to either the peptide (d-Lys⁶)-LHRH or another cyclic RGD unit and a small-molecule integrin inhibitor SCS-873 conjugated to (d-Lys⁶)LHRH. We also prepared monofunctional targeting modules containing either cyclic RGD or (d-Lys⁶)-LHRH peptides. Binding of the chemically programmed antibodies to integrin receptors α(v)β(3) and α(v)β(5) and to the luteinizing hormone releasing hormone receptor were evaluated. The bifunctional and bivalent c-RGD/LHRH and SCS-783/LHRH, the monofunctional and tetravalent c-RGD/c-RGD, and the monofunctional bivalent c-RGD chemically programmed antibodies bound specifically to the isolated integrin receptor proteins as well as to integrins expressed on human melanoma M-21 cells. c-RGD/LHRH, SCS-783/LHRH, and LHRH chemically programmed antibodies bound specifically to the LHRH receptors expressed on human ovarian cancer cells. This approach provides an efficient, versatile, and economically viable route to high-valency therapeutic antibodies that target defined combinations of specific receptors. Additionally, this approach should be applicable to chemically programmed vaccines.     

Localisation of a Novel Adhesion Blocking Epitope on the Human β1 Integrin Chain

Members of the β₁ integrin family mediate cellular adherence to a wide range of extracellular and cell surface associated ligands. Conformational changes have been shown to be associated with integrin activation and ligand binding. Some studies suggest that there may be a restricted region of the β₁ integrin that serves as the target for regulatory antibodies which can inhibit or stimulate integrin function. Here we identify an inhibitory epitope that is located at a distinct sight from that suggested for other inhibitory antibodies. Three different adhesion blocking antibodies, JB1A, C30B, and DUB bind to a peptide corresponding to residues 82–87 of the mature β₁ chain. Mn⁺⁺ inhibited the binding of JB1A to purified β? integrin. In contrast the binding of several other antibodies to β₁ were not influenced by these conditions. JB1A binding to purified peptide was also inhibited by Mn⁺⁺ suggesting that it related to interference with the antibody function rather than a cation dependent change in the epitope. Our data 1) directly demonstrates the peptide sequence recognised by three adhesion blocking antibodies to the human β₁ integrin chain 2) identifies a novel epitope located at residues 82–87, distinct from that of previously described regulatory epitopes 3) characterises a Mn⁺⁺ sensitive antibody integrin interaction. Collectively, these results indicate the existence of multiple regulatory sites on the β₁ integrin molecule.     

Tyrosine kinase syk non-enzymatic inhibitors and potential anti-allergic drug-like compounds discovered by virtual and in vitro screening

In the past decade, the spleen tyrosine kinase (Syk) has shown a high potential for the discovery of new treatments for inflammatory and autoimmune disorders. Pharmacological inhibitors of Syk catalytic site bearing therapeutic potential have been developed, with however limited specificity towards Syk. To address this topic, we opted for the design of drug-like compounds that could impede the interaction of Syk with its cellular partners while maintaining an active kinase protein. To achieve this challenging task, we used the powerful potential of intracellular antibodies for the modulation of cellular functions in vivo, combined to structure-based in silico screening. In our previous studies, we reported the anti-allergic properties of the intracellular antibody G4G11. With the aim of finding functional mimics of G4G11, we developed an Antibody Displacement Assay and we isolated the drug-like compound C-13, with promising in vivo anti-allergic activity. The likely binding cavity of this compound is located at the close vicinity of G4G11 epitope, far away from the catalytic site of Syk. Here we report the virtual screen of a collection of 500,000 molecules against this new cavity, which led to the isolation of 1000 compounds subsequently evaluated for their in vitro inhibitory effects using the Antibody Displacement Assay. Eighty five compounds were selected and evaluated for their ability to inhibit the liberation of allergic mediators from mast cells. Among them, 10 compounds inhibited degranulation with IC₅₀ values ≤10 µM. The most bioactive compounds combine biological activity, significant inhibition of antibody binding and strong affinity for Syk. Moreover, these molecules show a good potential for oral bioavailability and are not kinase catalytic site inhibitors. These bioactive compounds could be used as starting points for the development of new classes of non-enzymatic inhibitors of Syk and for drug discovery endeavour in the field of inflammation related disorders.     

An abundant chick gizzard integrin is the avian α1β1 integrin heterodimer and functions as a divalent cation-dependent collagen IV receptor

The α-subunit of an abundant chick gizzard integrin was isolated ([12.], J. Biol. Chem. 262, 17,189–17,199) and fragmented by proteolytic digestion. The N-terminal sequences of the intact polypeptide and of several internal peptides were determined and were found to be highly homologous to the mammalian integrin α₁-subunit. Monoclonal antibodies to the chick integrin β₁-chain react on immunoblots with the gizzard integrin β-subunit ([28.], J. Biol. Chem. 265, 14,561–14,565). The chain composition of the abundant chick gizzard integrin is therefore α₁β₁. Polyclonal antibodies to the avian integrin α₁-subunit block attachment of embryonic gizzard cells to human and chick collagen IV completely and inhibit attachment to mouse Engelbreth-Holm-Swarm (EHS) tumor laminin partially. In ELISA-style receptor assays, the isolated α₁β₁ integrin bound to human and chick collagen IV and to mouse EHS tumor and chick heart laminin. While the binding to collagen IV was abolished by removal of divalent cations, the binding to laminin was not sensitive to EDTA under the conditions used. Collagen I bound the isolated avian α₁β₁ integrin only weakly. As collagen IV was the only extracellular matrix protein for which a consistent, divalent cation-dependent, binding to the avian α₁β₁ integrin could be demonstrated in both cellular and molecular assays we suggest that it is a preferred ligand for this integrin.     

Physiological evidence of integrin-antibody reactive proteins influencing the innate cellular immune responses of larval Galleria mellonella hemocytes

Larval Galleria melonella(L.)hemocytes form microaggregates in response to stimulation by Gram-positive bacteria Hemocyte adhesion to foreign materials is mediated by the CAMP/protein kinase A pathway and the B-subunit of cholera toxin using a cAMP-independent mechanism.Cholera toxin-induced microaggregation was inhibited by the integrin inhibitory RGDS peptide,implying integrins may be part of the mechanism.Based on the types of mammalian integrin-antibody reactive proteins affecting hemocyte adhesion and bacterial-induced responses ars,ory,Ai,and B3 subunits occred on both granular cell and plasmatocyte hemocyte subtypes.A fluorescent band representing the binding of rabbit as-integrin subunit antibodies occurred between adhering heterotypic hemocytes.The frequency of the bands was increased by cholera toxin.The as andβrabbit integrin subunit antibodies inhibited removal of Bacillus subtilis(Cohn)from the hemolymph in vivo,A as ir-specific synthetic peptide blocker similarly diminished hemocyte function whereas the 0v Bs-specific inhibitory peptide and the corresponding integrin subunit antibodies did not influence nonself hemocyte activities.Western blots revealed several proteins reacting with a given integrin-antibody subtype.Thus integrin-antibody reactive proteins(which may include integrins)with possible as and B epitopes modulate immediate hemocyte function.Confocal microscopy established plasmatocyte adhesion to and rosetting over substrata followved by granular cell microaggregate adhesion to plasmatocytes during early stage nodulation.     

Linking Integrin α6β4-based Cell Adhesion to the Intermediate Filament Cytoskeleton: Direct Interaction between the β4 Subunit and Plectin at Multiple Molecular Sites

Recent studies with patients suffering from epidermolysis bullosa simplex associated with muscular dystrophy and the targeted gene disruption in mice suggested that plectin, a versatile cytoskeletal linker and intermediate filament-binding protein, may play an essential role in hemidesmosome integrity and stabilization. To define plectin's interactions with hemidesmosomal proteins on the molecular level, we studied its interaction with the uniquely long cytoplasmic tail domain of the β₄ subunit of the basement membrane laminin receptor integrin α₆β₄ that has been implicated in connecting the transmembrane integrin complex with hemidesmosome-anchored cytokeratin filaments. In vitro binding and in vivo cotransfection assays, using recombinant mutant forms of both proteins, revealed their direct interaction via multiple molecular domains. Furthermore, we show in vitro self-interaction of integrin β₄ cytoplasmic domains, as well as disruption of intermediate filament network arrays and dislocation of hemidesmosome-associated endogenous plectin upon ectopic overexpression of this domain in PtK2 and/or 804G cells. The close association of plectin molecules with hemidesmosomal structures and their apparent random orientation was indicated by gold immunoelectron microscopy using domain-specific antibodies. Our data support a model in which plectin stabilizes hemidesmosomes, via directly interlinking integrin β₄ subunits and cytokeratin filaments.     

Vitronectin decreases microvascular endothelial cell apoptosis

Angiogenesis after tissue injury occurs in a matrix environment consisting of fibrin, fibronectin, and vitronectin as the major extracellular matrix (ECM) constituents. ECM-integrin interactions is critical for angiogenesis and failure to bind a ligand to certain integrin receptors (α_vβ₃ or α_vβ₅) inhibits angiogenesis. The ligand that binds to α_vβ₃ or α_vβ₅ integrin receptors during microvascular angiogenesis has not been identified. Our hypothesis is that provisional matrix molecules provide the environmental context cues to microvascular endothelial cells and promote angiogenesis by decreased programmed cell death. Using cultured human microvascular endothelial cells, we show that vitronectin, in comparison to growth on alternative provisional matrix molecules (fibronectin, fibrinogen plus thrombin), collagen I, and basement membrane molecules (collagen IV), significantly reduces microvascular endothelial cell death in vitro. This reduction was observed using morphologic criteria, TdT-mediated dUTP nick end labeling (TUNEL) assay, histone release into the cytoplasm, and thymidine release into the supernatant. Though our data confirm that vitronectin may bind to more than one integrin receptor to reduce MEC apoptosis, binding to the α_v component appears to be the critical integrin subcomponent for reducing apoptosis. J. Cell. Physiol. 175:149–155, 1998. © 1998 Wiley-Liss, Inc.     

Targeting Integrin-Dependent Adhesion and Signaling with 3-Arylquinoline and 3-Aryl-2-Quinolone Derivatives: A new Class of Integrin Antagonists

We previously reported the anti-migratory function of 3-aryl-2-quinolone derivatives, chemically close to flavonoids (Joseph et al., 2002). Herein we show that 3-arylquinoline or 3-aryl-2-quinolone derivatives disrupt cell adhesion in a dose dependent and reversible manner yet antagonized by artificial integrin activation such as manganese. Relying on this anti-adhesive activity, a Structure-Activity Relationship (SAR) study was established on 20 different compounds to throw the bases of future optimization strategies. Active drugs efficiently inhibit platelet spreading, aggregation, and clot retraction, processes that rely on α_llbβ₃ integrin activation and clustering. In vitro these derivatives interfere with β₃ cytoplasmic tail interaction with kindlin-2 in pulldown assays albeit little effect was observed with pure proteins suggesting that the drugs may block an alternative integrin activation process that may not be directly related to kindlin recruitment. Ex vivo, these drugs blunt integrin signaling assayed using focal adhesion kinase auto-phosphorylation as a read-out. Hence, 3-arylquinoline and 3-aryl-2-quinolone series are a novel class of integrin activation and signaling antagonists.     

Preparation of integrin alpha(v)beta3-targeting Ab 38C2 constructs

This protocol describes the preparation of Ab constructs using agents that target cells expressing integrins alpha(v)beta3 and alpha(v)beta5, and the monoclonal aldolase Ab 38C2. The targeting agents are equipped with a diketone or vinylketone linker, and selectively react through the reactive Lys residues in the Ab binding sites to form 38C2 conjugates or chemically programmed 38C2 (i.e., cp38C2). The targeting agent possessing a diketone linker reacts with the Lys residues forming an enaminone derivative. By contrast, the vinylketone linker is used as the corresponding acetone adduct (i.e., a pro-vinylketone linker), and this pro-adapter undergoes a 38C2-catalyzed retro-aldol reaction to produce the vinylketone linker, which forms a Michael-type adduct with the Lys residues. The Ab construct formation is achieved in <1 h for the diketone compounds at ambient temperature, and in 2-16 h using the pro-vinylketone linker at 37 degrees C. The 38C2 constructs are retargeted to cells over-expressing integrins, and are potential candidates for immunotherapy.     

Negative Cooperativity between α3β1and α2β1Integrins in Human Mammary Carcinoma MDA MB 231 Cells

The α₃β₁integrin has been implicated as a receptor for several matrix components, including collagen, fibronectin, and laminins. The function of α₃β₁seems to be very versatile involving cell adhesion to or migration on ECM, establishment of cell–cell contacts in aggregates, as well as linkage to intracellular tyrosine phosphorylation cascades. Here we report a strong induction of attachment of α₃β₁integrin expressing human breast carcinoma cell line MDA MB 231 to matrix proteins by two α₃integrin subunit function-blocking monoclonal antibodies (P1B5 and ASC-1). In contrast, stimulation of adhesion to ECM by inhibitory α₃integrin-specific antibodies was not observed in the α₃β₁integrin-expressing nonmalignant human mammary epithelial cell line MCF-10A or the human breast carcinoma cell line MDA MB 468 that expressed relatively low amounts of α₃β₁integrin at the cell surface. This increase was specific for collagens and not observed on fibronectin or laminin. Physiological concentrations of bivalent cations were not required. MAb P1B5 did not induce homotypic aggregation of MDA MB 231 cells. The P1B5-induced increase in cell attachment to collagens could be prevented but not reduced below control levels by blocking mAb to the α₂integrin subunit. Function blocking anti-α₅integrin subunit mAb was without effect while anti-β₁-mAb completely abolished adhesion. Our data indicate that negative cooperativity between integrins results in transdominant inhibition of α₂β₁function by α₃β₁in human MDA MB 231 but not MDA MB 468 tumor cells or nonmalignant MCF-10A cells.     

Insight to the binding mode of triazole RGD-peptidomimetics to integrin-rich cancer cells by NMR and molecular modeling

The binding features of a novel class of ‘click chemistry’-derived RGD mimics with integrin ligand capability were studied toward α_vβ₃ integrin using STD-NMR techniques on intact integrin-rich ECV340 bladder cancer cell line. STD is useful to identify which moieties of the ligand are closest to the receptor in the bound state. The NMR data were integrated with competitive binding assays to the purified α_vβ₃ receptor and were interpreted with the aid of docking calculations. The involvement of the triazole hydrogen atom in the interaction with the receptor was evinced for all compounds but 2, in agreement with docking studies showing a certain proximity between triazole and Tyr178. Moreover, the interaction of the hydroxylated ligands with the receptor was not as extended as in the compounds belonging to the corresponding series, with the exception of compound 4 having 2-aminobenzimidazole as the arginine bioisostere, in agreement with biological assay results showing reduced binding capability for the hydroxylated peptidomimetics.     

1-Substituted carbamoyl and thiocarbamoyl-4,5-dihydro-1H-pyrazoles as possible cytotoxic and antimicrobial agents

Two series of 1-substituted carbamoyl and thiocarbomoyl derivatives were prepared by either treating the corresponding pyrazole with the appropriate isocyanate and isothiocyanate respectively, or alternatively by condensing the appropriate diketone with the proper substituted semicarbazide or thiosemicarbazide. The structures of the prepared compounds were fully determined by analytical and spectral methods. Preliminary biological screening of the prepared compounds revealed significant antibacterial and cytotoxic activities for some compounds. Compounds 4a₂ and 4a₃ were found to be the most active against the human colon carcinoma HT29 (11.8 and 7.5?μg/mL, respectively) and human breast cancer MCF 7 (3.4 and 2.6?μg/mL, respectively) cell lines. The structure–activity relationship (SAR) and in silico drug relevant properties (HBD, HBA, tPSA, cLog P, molecular weight, % ABS, drug-likeness and drug score) further confirmed that the compounds are potential lead compounds for future drug discovery study.     

Chemically programmed antibodies targeting multiple alpha(v) integrins and their effects on tumor-related functions in vitro

Integrins αvβ3 and αvβ6 are highly expressed on tumor cells and/or by the tumor vasculature of many human cancers, and represent promising targets for anticancer therapy. Novel chemically programmed antibodies (cpAbs) targeting these integrins were prepared using the catalytic aldolase Antibody (Ab) programming strategy. The effects of the cpAbs on cellular functions related to tumor progression were examined in vitro using tumor cell lines and their cognate integrin ligands, fibronectin and osteopontin. The inhibitory functions of the conjugates and their specificity were examined based on interference with cell-cell and cell-ligand interactions related to tumor progression. Cell binding analyses of the anti-integrin cpAbs revealed high affinity for tumor cells that overexpressed αvβ3 and αvβ6 integrins, and weak interactions with αvβ1 and αvβ8 integrins, in vitro. Functional analyses demonstrated that the cpAbs strongly inhibited cell-cell interactions through osteopontin binding, and they had little or no immediate effects on cell viability and proliferation. On the basis of these characteristics, the cpAbs are likely to have a broad range of activities in vivo, as they can target and antagonize one or multiple αv integrins expressed on tumors and tumor vasculatures. Presumably, these conjugates may inhibit the establishment of metastastatic tumors in distant organs through interfering with cell adhesion more effectively than antibodies or compounds targeting one integrin only. These anti-integrin cpAbs may also provide useful reagents to study combined effect of multiple αv integrins on cellular functions in vitro, on pathologies, including tumor angiogenesis, fibrosis, and epithelial cancers, in vivo.     

SAR of tertiary carbinamine derived BACE1 inhibitors: Role of aspartate ligand amine pKa in enzyme inhibition

The optimization of tertiary carbinamine derived inhibitors of BACE1 from its discovery as an unstable lead to low nanomolar cell active compounds is described. Five-membered heterocycles are reported as stable and potency enhancing linkers. In the course of this work, we have discovered a clear trend where the activity of inhibitors at a given assay pH is dependent on pK_a of the amino group that interacts directly with the catalytic aspartates. The potency of compounds as inhibitors of Αβ production in a cell culture assay correlated much better with BACE1 enzyme potency measured at pH 7.5 than at pH 4.5.     

Covisualization in living onion cells of putative integrin, putative spectrin, actin, putative intermediate filaments, and other proteins at the cell membrane and in an endomembrane sheath

Summary Covisualizations with wide-field computational opticalsectioning microscopy of living epidermal cells of the onion bulb scale have evidenced two major new cellular features. First, a sheath of cytoskeletal elements clads the endomembrane system. Similar elements clad the inner faces of punctate plasmalemmal sites interpreted as plasmalemmal control centers. One component of the endomembrane sheath and plasmalemmal control center cladding is antigenicity-recognized by two injected antibodies against animal spectrin. Immunoblots of separated epidermal protein also showed bands recognized by these antibodies. Injected phalloidin identified F-actin with the same cellular distribution pattern, as did antibodies against intermediate-filament protein and other cytoskeletal elements known from animal cells. Injection of general protein stains demonstrated the abundance of endomembrane sheath protein. Second, the endomembrane system, like the plasmalemmal puncta, contains antigen recognized by an anti-₁ integrin injected into the cytoplasm. Previously, immunoblots of separated epidermal protein were shown to have a major band recognized both by this antibody prepared against a peptide representing the cytosolic region of ₁ integrin and an antibody against the matrix region of ₁ integrin. The latter antibody also identified puncta at the external face of protoplasts. It is proposed that integrin and associated transmembrane proteins secure the endomembrane sheath and transmit signals between it and the lumen or matrix of the endoplasmic reticulum and organellar matrices. This function is comparable to that proposed for such transmembrane linkers in the plasmalemmal control centers, which also appear to bind cytoskeleton and a host of related molecules and transmit signals between them and the wall matrix. It is at the plasmalemmal control centers that the endoplasmic reticulum, a major component of the endomembrane system, attaches to the plasma membrane.Abbreviations DiOC₆ 3,3-dihexyloxacarbocyanine iodide - GF Gaussian filtering - ML maximum likelihood (algorithm or method) - PBS phosphate-buffered saline     

Identification of an 80kD Protein Associated with the α3β1 Integrin as a Proteolytic Fragment of the α3 Subunit: Studies with Human Keratinocytes

We have characterised a protein of approximately 80kD previously observed to co-immunoprecipitate with the α₃β₁ integrin in lysates of surface labelled human epiderrnalkerati-nocytes. The 80kD protein only appeared when keratinocytes were harvested with trypsin/EDTA prior to lysis and a protein of similar molecular mass could be immunoprecipitated from human dermal fibroblasts following treatment of the cells with trypsin/EDTA. N terminal sequencing established that the 80kD protein had homology with the as integrin subunit. Peptide-mass fingerprinting was used to confirm that the protein comprised the amino terminus of α₃ and established that the site of cleavage was after amino acid 629. The 80kD fragment could be coimmunoprecipitated with α₃β₁ using an antibody to the cytoplasmic domain of the α₃ subunit, showing that the fragment remained complexed with intact α₃β₁. When antibodies to the cytoplasmic and extracellular domains of α₃ were used to label human epidermis by immunofluorescence, the staining patterns were indistinguishable and there is therefore no evidence that proteolysis of α₃ plays a role in keratinocyte detachment from the basement membrane during terminal differentiation. Whether the 80kD fragment has any effects, positive or negative, on α₃β₁-mediated adhesion remains to be determined.     

Mitochondrially Mediated Integrin αIIbβ3 Protein Inactivation Limits Thrombus Growth

When platelets are strongly stimulated, a procoagulant platelet subpopulation is formed that is characterized by phosphatidylserine (PS) exposure and epitope modulation of integrin α_IIbβ₃ or a loss of binding of activation-dependent antibodies. Mitochondrial permeability transition pore (mPTP) formation, which is essential for the formation of procoagulant platelets, is impaired in the absence of cyclophilin D (CypD). Here we investigate the mechanisms responsible for these procoagulant platelet-associated changes in integrin α_IIbβ₃ and the physiologic role of procoagulant platelet formation in the regulation of platelet aggregation. Among strongly stimulated adherent platelets, integrin α_IIbβ₃ epitope changes, mPTP formation, PS exposure, and platelet rounding were closely associated. Furthermore, platelet mPTP formation resulted in a decreased ability to recruit additional platelets. In the absence of CypD, integrin α_IIbβ₃ function was accentuated in both static and flow conditions, and, in vivo, a prothrombotic phenotype occurred in mice with a platelet-specific deficiency of CypD. CypD-dependent proteolytic events, including cleavage of the integrin β₃ cytoplasmic domain, coincided closely with integrin α_IIbβ₃ inactivation. Calpain inhibition blocked integrin β₃ cleavage and inactivation but not mPTP formation or PS exposure, indicating that integrin inactivation and PS exposure are mediated by distinct pathways subsequent to mPTP formation. mPTP-dependent alkalinization occurred in procoagulant platelets, suggesting a possible alternative mechanism for enhancement of calpain activity in procoagulant platelets. Together, these results indicate that, in strongly stimulated platelets, mPTP formation initiates the calpain-dependent cleavage of integrin β₃ and associated regulatory proteins, resulting in integrin α_IIbβ₃ inactivation, and demonstrate a novel CypD-dependent negative feedback mechanism that limits platelet aggregation and thrombotic occlusion.     

The effects of estrogen,its antagonist ICI 182, 780, and interferon-tau on the expression of estrogen receptors and integrin alphaV beta 3 on cycle day 16 in bovine endometrium

We have shown previously that downregulation of intercaruncular stromal integrin α_vβ₃ in bovine endometrium on day 16 of the estrous cycle coincided with the antibody recognition of estrogen receptors (ER) in the luminal epithelium. In pregnancy, these changes were not observed. Our hypothesis was that on day 16 of the estrous cycle, estrogen from the dominant follicle causes a reduction in integrin α_vβ₃ and affects ERα in the luminal epithelium. The pregnancy recognition protein, interferon-τ (IFN-τ), may prevent downregulation of integrin α_vβ₃ and suppress ERα expression in the luminal epithelium. On days 14 to 16, heifers received uterine infusions of the anti-estrogen ICI 182, 780, estradiol 17β, IFN-τ or the saline control. On day 16, reproductive tracts were collected for analysis of integrin α_vβ₃ and ERα. Estrogen receptor α immunoreactivity was largely restricted to the luminal epithelium in control animals. Using anti-ERα recognizing the amino terminus, estrogen-treated animals showed reactivity in the stroma, shallow and deep glands and myometrium as is typical of estrus, whereas ICI 182, 870 treated heifers showed little or no reactivity. In contrast, carboxyl terminus-directed antibodies showed a widespread distribution of ERα with reactivity detected in the uterine epithelium, stroma and myometrium of both estrogen and ICI 182, 780 treated animals. Heifers treated with IFN-τ had low ERα reactivity overall. Control and IFN-τ treated heifers had lower intercaruncular stromal expression of integrin α_vβ₃ in comparison to estrogen and ICI 182, 780 treatments. Overall, the results suggest that on day 16 of the estrous cycle, estrogen effects on integrin α_vβ₃ are indirect and do not directly involve ERα in the luminal epithelium. During pregnancy, interferon-tau may block ERα in the luminal epithelium but likely does not rescue integrin α_vβ₃ expression.