Kallikrein activates bradykinin B2 receptors in absence of kininogen

Kallikreins cleave plasma kininogens to release the bioactive peptides bradykinin (BK) or kallidin (Lys-BK). These peptides then activate widely disseminated B2 receptors with consequences that may be either noxious or beneficial. We used cultured cells to show that kallikrein can bypass kinin release to activate BK B2 receptors directly. To exclude intermediate kinin release or kininogen uptake from the cultured medium, we cultured and maintained cells in medium entirely free of animal proteins. We compared the responses of stably transfected Chinese hamster ovary (CHO) cells that express human B2 receptors (CHO B2) and cells that coexpress angiotensin I-converting enzyme (ACE) as well (CHO AB). We found that BK (1 nM or more) and tissue kallikrein (1-10 nM) both significantly increased release of arachidonic acid beyond unstimulated baseline level. An enzyme-linked immunoassay for kinin established that kallikrein did not release a kinin from CHO cells. We confirmed the absence of kininogen mRNA with RT-PCR to rule out kininogen synthesis by CHO cells. We next tested an ACE inhibitor for enhanced BK receptor activation in the absence of kinin release and synthesized an ACE-resistant BK analog as a control for these experiments. Enalaprilat (1 microM) potentiated kallikrein (100 nM) in CHO AB cells but was ineffective in CHO B2 cells that do not bear ACE. We concluded that kallikrein activated B2 receptors without releasing a kinin. Furthermore, inhibition of ACE enhanced the receptor activation by kallikrein, an action that may contribute to the manifold therapeutic effects of ACE inhibitors.     

Expression levels strongly affect ligand-induced sequestration of B2 bradykinin receptors in transfected cells

Transfection of cells with expression vectors is one of the most important tools used to assess the effects of receptor mutations on ligand-induced receptor sequestration. Most transfection methods give rise to transiently or stably transfected clones with a wide range of receptor expression levels that may also depend on the mutations made. It is, therefore, important to determine how the regulation of the receptors depends on their numbers per cell. In Chinese hamster ovary (CHO) and human embryonic kidney (HEK)-293 cells expressing high levels of B(2) kinin receptors, we observed poor sequestration indicated by <20% reduction in cell surface receptor number after 10 min of stimulation with 1 microM bradykinin (BK) compared with >70% in low-expressing cells. Whereas the rate of [(3)H]BK internalization (internalized [(3)H]BK in percentage of total bound [(3)H]BK) in low-expressing cells was independent of the ligand-concentration used, in high-expressing cells a strong rate decrease was observed with higher (>1 nM) concentrations. Lower ligand concentrations, however, led to internalization rates identical to those obtained in low-expressing cells. Transiently transfected HEK and COS-7 cells showed results similar to those of stably high-expressing cells. Our results demonstrate the difficulty in determining the internalization pattern of (mutated) B(2) kinin receptors, and possibly of G protein-coupled receptors in general, using a sequestration assay in high-expressing cells or transiently transfected cells with high numbers of receptors per transfected cell. However, the receptor (mutant)-specific internalization rate can be measured, provided that the ligand concentrations used are below a threshold at which the internalization rate is still independent of the ligand concentration.     

Classification of kinin receptors

This minireview is divided into three parts: the first part refers to the characterization and classification of kinin receptors using agonists and antagonists in isolated tissues (classical pharmacology). Two kinin receptors have been considered on the basis of their distinct pharmacology, namely the B1 receptor of the rabbit aorta (rank order of potency of agonists: LysdesArg9BK > desArg9BK > or = LysBK > BK; apparent affinities of antagonists Lys[Leu8]desArg9BK (pIC50 8.4) > [Leu8]desArg9BK (pIC50 7.4) > HOE 140, a B2 receptor antagonist, pIC50<5.0), and the B2 receptor of the rabbit jugular vein (potency of agonists: LysBK = BK > LysdesArg9BK = desArg9BK and HOE 140 (pIC50 9.0) > Lys[Leu8]desArg9BK, pIC50<5.0). The second part describes species-related B1 receptor subtypes, demonstrated by different pharmacological profiles of agonists and antagonists: human, rabbit and pig subtypes (LysdesArg9BK > desArg9BK and Lys[Leu8]desArg9BK > [Leu8]desArg9BK) and dog, rat, mouse and hamster B1 receptors (desArg9BK = LysdesArg9BK and [Leus]desArg9BK = Lys[Leu8]desArg9BK). Affinities of agonists and antagonists in some species (man, rabbit, pig) are significantly increased (at least 10-fold) by the presence of a Lys at their N-terminus. The last part describes species-related B2 receptor subtypes supported by results obtained with non-peptide receptor agonists (FR 190997) and antagonists (FR 173657). While BK acts as a full agonist in man, rabbit and pig, FR 190997 behaves as a full agonist on human, as partial agonist on rabbit, and as pure antagonist on pig B2 receptors. Various hypotheses are considered to interpret these findings.     

Molecular cloning and pharmacological characterization of the canine B1 and B2 bradykinin receptors

The dog is a valuable animal model in the study of the physiological role of both the B1 and B2 bradykinin receptors. To more thoroughly characterize the pharmacological properties of the canine kinin receptors we isolated the cDNA sequence encoding the B1 and B2 bradykinin receptor subtypes and overexpressed them in Chinese hamster ovary (CHO) cells. The cDNA sequence of the canine B1 bradykinin receptor encodes a protein comprised of 350 amino acids that is 76% identical to the human B1 bradykinin receptor. The cDNA sequence of the canine B2 bradykinin receptor encodes a protein of 392 amino acids that is 81% identical to the human B2 bradykinin receptor. The amino acid sequence of the canine B1 and B2 receptors are 35% identical. Pharmacological studies of the cloned receptors revealed that the agonist affinity of the dog B1 receptor is similar to the rodent B1 receptors, and differs from the human form in that there is no preference for the presence of the N-terminal Lys residue of [des-Arg10]Lys-bradykinin. Significantly, the B1 receptor antagonist [des-Arg9,Leu8]BK behaves as partial agonist on the cloned dog B1 receptor. The dog B2 receptor exhibits the 'classical' pharmacological properties of this receptor subtype.     

Expression of three human beta-adrenergic-receptor subtypes in transfected Chinese hamster ovary cells.

The genes coding for three pharmacologically distinct subtypes of human beta-adrenergic receptors (beta 1 AR, beta 2 AR and beta 3 AR) were transfected for expression in Chinese hamster ovary (CHO) cells. Stable cell lines expressing each receptor were analyzed by ligand binding, adenylate cyclase activation and photoaffinity labeling, and compared to beta AR subtypes observed in previously described tissues, primary cultures and transfected cell lines. Each of the three receptor subtypes displayed saturable [125I]iodocyanopindolol-binding activity. They showed the characteristic rank order of potencies for five agonists, determined by measuring the accumulation of intracellular cAMP. These recombinant cell lines express a homogeneous population of receptors and display the known pharmacological properties of beta 1 AR and beta 2 AR, in human tissues. It is therefore likely that the pattern of ligand binding and adenylate cyclase activation, mediated by the new beta 3 AR in CHO cells, also reflects the yet-undetermined pharmacological profile in humans.     

Functional expression of the bradykinin-B2 receptor cDNA in Chinese hamster lung CCL39 fibroblasts.

The bradykinin (BK) B2 receptor cDNA was synthesized by rt-PCR and transfected into the Chinese hamster lung fibroblasts, CCL39. The CCL39 do not contain the mRNA for this receptor and do not bind BK. Clones of transfected cells were screened for BK receptor mRNA, binding of BK, and for [Ca2+]i response to BK. The clones showed various levels of receptor mRNA. Scatchard analysis of three clones, B6, B5 and B1, each gave a Kd of approximately 1.0nM while the Bmax for each clone differed at 320, 38.7, and 5.39 fmoles per 10(6) cells respectively. The [Ca2+]i response of the three clones to BK decreased with the receptor number/cell. Thus, levels of mRNA, BK binding and [Ca2+]i response proved proportionally related in the transfected clones. The actions of BK and alpha-thrombin, which has an endogenous receptor in these cells, were assessed in clone B6. BK proved active but also distinct from thrombin. BK at 10nM and thrombin at 2units/ml both effectively increased cytosolic [Ca2+]i. BK at 10nM stimulated PGE2 production three fold over basal, while thrombin only marginally elevated PGE2 levels. Alone, BK stimulated a small increase in 3H-thymidine incorporation into DNA. However, in combination with insulin, BK stimulated DNA synthesis to 76% of thrombin, a potent mitogen in these cells. These results illustrate that the BK-B2 receptor cDNA can be stably transfected into a mammalian cell and can activate transmembrane signalling pathways.     

Molecular cloning and expression of the cDNA for the alpha 1A-adrenergic receptor. The gene for which is located on human chromosome 5.

Pharmacological and molecular cloning studies have demonstrated heterogeneity of alpha 1-adrenergic receptors. We have now cloned two alpha 1-adrenergic receptors from a rat cerebral cortex cDNA library, using the hamster alpha 1B-adrenergic receptor as a probe. The deduced amino acid sequence of clone RA42 encodes a protein of 560 amino acids whose putative topology is similar to that of the family of G-protein-coupled receptors. The primary structure though most closely resembles that of an alpha 1-adrenergic receptor, having approximately 73% amino acid identity in the putative transmembrane domains with the previously isolated hamster alpha 1B receptor. Analysis of the ligand binding properties of RA42 expressed in COS-7 cells with a variety of adrenergic ligands demonstrates a unique alpha 1-adrenergic receptor pharmacology. High affinity for the antagonist WB4101 and agonists phenylephrine and methoxamine suggests that cDNA RA42 encodes the alpha 1A receptor subtype. Northern blot analysis of various rat tissues also shows the distribution expected of the alpha 1A receptor subtype with abundant expression in vas deferens followed by hippocampus, cerebral cortex, aorta, brainstem, heart and spleen. The second alpha 1-adrenergic receptor cloned represents the rat homolog of the hamster alpha 1B subtype. Expression of mRNA for this receptor is strongly detected in liver followed by heart, cerebral cortex, brain stem, kidney, lung, and spleen. This study provides definitive evidence for the existence of three alpha 1-adrenergic receptor subtypes.     

N-linked glycosylation facilitates sialic acid-independent attachment and entry of influenza A viruses into cells expressing DC-SIGN or L-SIGN

It is widely recognized that sialic acid (SA) can mediate attachment of influenza virus to the cell surface, and yet the specific receptors that mediate virus entry are not known. For many viruses, a definitive demonstration of receptor function has been achieved when nonpermissive cells are rendered susceptible to infection following transfection of the gene encoding a putative receptor. For influenza virus, such approaches have been confounded by the abundance of SA on mammalian cells so that it has been difficult to identify cell lines that are not susceptible to infection. We examined influenza virus infection of Lec2 Chinese hamster ovary (CHO) cells, a mutant cell line deficient in SA. Lec2 CHO cells were resistant to influenza virus infection, and stable cell lines expressing either DC-SIGN or L-SIGN were generated to assess the potential of each molecule to function as SA-independent receptors for influenza A viruses. Virus strain BJx109 (H3N2) bound to Lec2 CHO cells expressing DC-SIGN or L-SIGN in a Ca(2+)-dependent manner, and transfected cells were susceptible to virus infection. Treatment of Lec2-DC-SIGN and Lec2-L-SIGN cells with mannan, but not bacterial neuraminidase, blocked infection, a finding consistent with SA-independent virus attachment and entry. Moreover, virus strain PR8 (H1N1) bears low levels of mannose-rich glycans and was inefficient at infecting Lec2 CHO cells expressing either DC-SIGN or L-SIGN, whereas other glycosylated H1N1 subtype viruses could infect cells efficiently. Together, these data indicate that human C-type lectins (DC-SIGN and L-SIGN) can mediate attachment and entry of influenza viruses independently of cell surface SA.     

Characterization of bradykinin receptors in a human osteoblastic cell line.

Bradykinin receptor subtypes linked to prostaglandin release have been assessed in a human osteosarcoma cell line with osteoblastic phenotype (MG-63). Bradykinin (BK; 1 micromol/l) caused a burst of prostaglandin E(2) release that was maximal at 10 min. When the effect on the burst of PGE(2) and PGI(2) release by a variety of kinins and kinin analogues was assessed, the following rank order of response was found: Lys-BK>BK> or =Met-Lys-BK>Ile-Ser-BK>[Tyr(8)]-BK> or =[Hyp(3)]-BK>des-Arg(9)-BK=des-Arg(10)-Lys-BK=des-Arg(1)-BK, [Thi(5,8),D-Phe(7)]-BK=Sar-[D-Phe(8)]-des-Arg(9)-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK. The rapid effect of BK on PGE(2) and PGI(2) release was unaffected by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140], but strongly inhibited by Hoe 140 in a concentration-dependent manner. When the incubation time was extended to 48 h, it was found that des-Arg(9)-BK and des-Arg(10)-Lys-BK caused a delayed enhancement of the formation of PGE(2). When PGE(2) formation was assessed in 24-h experiments, the following rank order of response was obtained: Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK>BK=Lys-BK>des-Arg(10)-Lys-BK>Sar[D-Phe(8)]-des-Arg(9)-BK>des-Arg(9)-BK. The stimulatory effect of BK at 24 h was unaffected by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140] but inhibited by Hoe 140. The stimulatory effect of des-Arg(10)-Lys-BK in 24-h experiments was inhibited by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140]. Similarly, the stimulatory effects of Sar[D-Phe(8)]-des-Arg(9)-BK and Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK was inhibited by des-Arg(10)-[Hoe 140].The following rank order of response was seen for inhibition of [3H]-BK binding to MG-63 cells: Lys-BK=BK=Hoe 140>des-Arg(10)-Hoe 140=des-Arg(10)-Lys-BK=des-Arg(9)-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK. Using [3H]-des-Arg(10)-Lys-BK, the following rank order of response for inhibition of binding was seen: des-Arg(10)-Lys-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK>des-Arg(10)-Hoe 140>des-Arg(9)-BK=Lys-BK=BK=Hoe 140. MG-63 cells expressed mRNAs for BK B1 and B2 receptors, as assessed by RT-PCR.These data indicate that the human osteoblastic osteosarcoma cell line MG-63 is equipped with functional BK receptors of both B1 and B2 receptor subtypes. The B2 receptors are linked to a burst of prostanoid release, whereas the B1 receptors mediate a delayed prostaglandin response, indicating that the two receptor subtypes are linked to different signal transducing mechanisms or that the molecular mechanisms involved in prostaglandin release are different.     

Preliminary biochemical characterization of two angiotensin II receptor subtypes

Two angiotensin II receptor subtypes (A and B) are described from rat and human tissues. They have been characterised using specific peptidic and non-peptidic ligands with affinities differing by 1000 fold or more. These subtypes are present in adrenal glomerulosa of both species. Human uterus contains only subtype A, whereas both subtypes are found in rat uterus. Vascular smooth muscle cells in culture express only subtype B. Dithio-threitol totally inhibits binding to subtype B, but enhances the affinity to subtype A. There is a good correlation between the affinities of the selected agonists and antagonists for the two subtypes in the various tissues tested which is a usual requirement for receptor classification.     

Effects of propentofylline on adenosine receptor activity in Chinese hamster ovary cell lines transfected with human A1, A2A, or A2B receptors and a luciferase reporter gene.

Propentofylline is neuroprotective in vivo, but its mechanism of action is not completely understood. Previously, propentofylline was shown to block adenosine transport processes, to inhibit three adenosine receptor subtypes, and to inhibit cAMP phosphodiesterase. We tested the effect of propentofylline on adenosine receptor function in Chinese hamster ovary (CHO) cells transfected with human adenosine A1, A2A, or A2B receptors and a luciferase reporter gene under control of a promoter sequence containing several copies of the cAMP response element. We investigated the concentration-dependent inhibitory effects of propentofylline on cAMP phosphodiesterase, adenosine transport processes, and adenosine A1, A2A, and A2B receptors. At concentrations > or = 1 mM, propentofylline increased luciferase activity probably as a result of inhibition of cAMP phosphodiesterase. Inhibition of [3H]adenosine uptake by propentofylline was concentration dependent, with IC50 values of 37-39 microM for the three cell types. Agonist-activated adenosine A1 receptors were antagonized by 100 microM propentofylline, but inhibition of agonist-stimulated A2A or A2B receptors was not observed. In contrast, A1 and A2A receptor mediated effects of adenosine were enhanced by propentofylline at concentrations of 1 and 100 microM, respectively. These data indicate that the net effects of propentofylline in vivo will be dependent on the concentrations of propentofylline and adenosine available and on the subtypes of adenosine receptors, phosphodiesterases, and nucleoside transporters present.     

Growth hormone (GH) stimulates protein synthesis in cells transfected with GH receptor complementary DNA

An expression vector containing a rat GH receptor cDNA was transfected into Chinese hamster ovary (CHO) cells, and stable cell lines expressing GH receptors were established. In contrast to nontransfected CHO cells, expression of GH receptors in transfected cells resulted in the appearance of high affinity (Kd = 1.53 nM) specific binding of GH. Cross-linking of [125I]hGH to the receptors and subsequent sodium dodecyl sulfate (SDS)-electrophoresis gave an estimated receptor mol wt of 84,000. GH treatment stimulated protein synthesis 60% over basal levels in GH receptor-expressing CHO cells, but not in the receptor-negative parental cells. The effect was observed only under serum-free conditions and was time and dose dependent. These results show that heterologous expression of the rat GH receptor results in the appearance of specific binding of GH and the acquisition of a functional GH response.     

Bradykinin binding to B2 kinin receptors and stimulation of phosphoinositide turnover and arachidonic acid release in primary cultures of cells from late pregnant rat myometrium.

Primary cultures of cells from late pregnant rat myometrium contain B2 kinin receptors through which bradykinin (BK) stimulates inositol phosphate (InsP) formation and arachidonic acid (20:4) release. Equilibrium binding at 4 degrees C revealed that [3H]BK identified a maximal number of cell surface B2 kinin receptor binding sites on rat myometrial cells of 308 +/- 78 fmol/10(6) cells with apparently a single equilibrium dissociation constant of 1.8 +/- 0.2 nM. At 37 degrees C, [3H]BK binding was associated with a time-dependent decrease in the reversibility of the binding. This decrease was due in part to formation of slowly dissociating cell surface receptor [3H]BK binding and in part to internalization of the receptor-bound [3H]BK. Exposure of labeled cells to BK resulted in dose-dependent increases in [3H]InsP3, [3H]InsP2 ([3H]Ins(1,4)P2), and [3H]InsP1 ([3H]Ins(1)P1) formation and [3H]20:4 release. Pretreatment with 100 ng/mL pertussis toxin did not perturb BK stimulation of [3H]InsP formation but partially (approximately 30%) inhibited BK stimulation of [3H]20:4 release. BK stimulation of [3H]20:4 release was directly proportional to the number of receptor sites occupied by BK. In contrast, stimulation of [3H]InsP formation required a threshold level of receptor occupancy, which decreased as a function of time of BK exposure. These results show that BK interacts with B2 kinin receptors on rat myometrial cells with apparently a single affinity through which BK stimulates [3H]InsP formation and [3H]20:4 release. BK stimulation of [3H]InsP formation requires a threshold BK concentration, which decreases with time, and we suggest that the decrease is due to a time-dependent formation of a BK receptor binding state from which BK slowly dissociates.     

Regulation and intracellular trafficking pathways of the endothelin receptors

The effects of endothelin (ET) are mediated via the G protein-coupled receptors ET(A) and ET(B). However, the mechanisms of ET receptor desensitization, internalization, and intracellular trafficking are poorly understood. The aim of the present study was to investigate the molecular mechanisms of ET receptor regulation and to characterize the intracellular pathways of ET-stimulated ET(A) and ET(B) receptors. By analysis of ET(A) and ET(B) receptor internalization in transfected Chinese hamster ovary cells in the presence of overexpressed betaARK, beta-arrestin-1, beta-arrestin-2, or dynamin as well as dominant negative mutants of these regulators, we have demonstrated that both ET receptor subtypes follow an arrestin- and dynamin/clathrin-dependent mechanism of internalization. Fluorescence microscopy of Chinese hamster ovary and COS cells expressing green fluorescent protein (GFP)-tagged ET receptors revealed that the ET(A) and ET(B) subtypes were targeted to different intracellular routes after ET stimulation. While ET(A)-GFP followed a recycling pathway and colocalized with transferrin in the pericentriolar recycling compartment, ET(B)-GFP was targeted to lysosomes after ET-induced internalization. Both receptor subtypes colocalized with Rab5 in classical early endosomes, indicating that this compartment is a common early intermediate for the two ET receptors during intracellular transport. The distinct intracellular routes of ET-stimulated ET(A) and ET(B) receptors may explain the persistent signal response through the ET(A) receptor and the transient response through the ET(B) receptor. Furthermore, lysosomal targeting of the ET(B) receptor could serve as a biochemical mechanism for clearance of plasma endothelin via this subtype.     

Internalization of the human insulin receptor. The insulin-independent pathway.

Internalization of the human insulin receptor requires the activation by insulin of the intrinsic kinase of the receptor. However, even in the absence of kinase activation, insulin receptors slowly enter the cells. In the present study, we addressed the question of this insulin-independent pathway of internalization. To that end, we traced insulin receptor internalization with a monoclonal antibody (mAb 83-14) directed against the alpha-subunit of the human insulin receptor. Internalization of this antibody was followed in Chinese hamster ovary (CHO) cells transfected with either normal (CHO.HIRC2) or kinase-deficient (CHO.A1018) human insulin receptors. The internalization rate of 125I-mAb 83-14 was comparable in CHO cells expressing kinase-active or kinase-inactive receptors and was similar to that observed for 125I-insulin in CHO.A1018 cells. Moreover, in CHO.HIRC2 cells, the internalization of 125I-mAb 83-14 was identical with that of its 125I-Fab fragments. Thus, mAb 83-14 represents an appropriate tool to study the constitutive internalization of the insulin receptor. Internalization of insulin receptors tagged with 125I-mAb 83-14 was unaffected by cytochalasin B, which excluded a macropinocytotic process. By contrast, internalization was sensitive to hypertonia, which abrogates clathrin-coated pits-mediated endocytosis. The implication of clathrin-coated pits in this internalization process was directly demonstrated by quantitative electron microscopic autoradiography, which showed that 125I-mAb 83-14 present on the nonvillous domain of the cell surface preferentially associate with clathrin-coated pits at all time points.     

Synthesis and characterization of selective dopamine D2 receptor antagonists

A series of indole compounds have been prepared and evaluated for affinity at D2-like dopamine receptors using stably transfected HEK cells expressing human D2, D3, or D4 dopamine receptors. These compounds share structural elements with the classical D2-like dopamine receptor antagonists, haloperidol, N-methylspiperone, and benperidol. The compounds that share structural elements with N-methylspiperone and benperidol bind non-selectively to the D2 and D3 dopamine receptor subtypes. However, several of the compounds structurally similar to haloperidol were found to (a) bind to the human D2 receptor subtype with nanomolar affinity, (b) be 10- to 100-fold selective for the human D2 receptor compared to the human D3 receptor, and (c) bind with low affinity to the human D4 dopamine receptor subtype. Binding at sigma (sigma) receptor subtypes, sigma1 and sigma2, were also examined and it was found that the position of the methoxy group on the indole was pivotal in both (a) D2 versus D3 receptor selectivity and (b) affinity at sigma1 receptors. Adenylyl cyclase studies indicate that our indole compounds with the greatest D2 receptor selectivity are neutral antagonists at human D2 dopamine receptor subtypes. With stably transfected HEK cells expressing human D2 (hD2-HEK), these compounds (a) have no intrinsic activity and (b) attenuated quinpirole inhibition of adenylyl cyclase. The D2 receptor selective compounds that have been identified represent unique pharmacological tools that have potential for use in studies on the relative contribution of the D2 dopamine receptor subtypes in physiological and behavioral situations where D2-like dopaminergic receptor involvement is indicated.