Difficult conversations: adults with diabetes and the discussion of microvascular complications.

AIMS: To investigate the experiences among adults with diabetes of discussions of microvascular complications and provide recommendations for providers. METHODS: We performed a qualitative study in 148 adults with Type 1 and Type 2 diabetes (56% women, 95% white, mean age 60±13 years, 65% with Type 1 diabetes, 71% with ≥1 microvascular complication). Data were analysed using content analysis. RESULTS: At their first discussion of microvascular complications, 93% of participants (138/148) recalled providers using a preventative approach including clinical suggestions, factual information and warnings. At complication diagnosis, 78% of participants (82/105) perceived provider support through comprehensive interactive education, specific self-care guidance, reassuring messages, and referrals and follow-ups. In response to complication diagnosis, 48% (50/105) felt scared, 46% (48/105) had 'a wake-up call', and 86% (90/105) reported increasing ≥1 specific area of self-care. Participants recommended providers offer factual and complete information, specific self-care guidance, and positive honesty, with an individualized and collaborative approach that includes psychosocial assessment and referrals and lacks 'scare tactics' and blame. CONCLUSIONS: Adults with diabetes want to learn about diabetes microvascular complications and apply preventative strategies as early as possible. Paradoxically, the diagnosis of a diabetes microvascular complication in itself may represent a unique learning opportunity because 86% of participants improved diabetes self-care after this event. Recommendations offer providers simple but important clinical approaches to improve these difficult conversations and thus support necessary behaviour changes and psychosocial well-being. Training is needed to help providers discuss the threat of diabetes complications with honest but positive messages so that people with diabetes can be fully informed but also maintain hope in the face of complications.

Extensive structure-activity studies of lactam derivatives of MT-II and SHU-9119: their activity and selectivity at human melanocortin receptors 3, 4, and 5.

The melanocortin system is involved in the regulation of several diverse physiologic pathways. Recently we have demonstrated that replacing His6 by Pro6 in the well-known antagonist SHU-9119 resulted in a potent agonist at the hMC5R (EC50 = 0.072 nm) with full antagonist activity at the hMC3R and the hMC4R. We have designed, synthesized, and pharmacologically characterized a series of peptide analogs of MT-II and SHU-9119 at the human melanocortin receptors MC3R, MC4R and MC5R. All these peptides were modified at position 6 with a Pro instead of a His residue. In this study, we have identified new scaffolds which are antagonists at the hMC4R and hMC3R. Additionally, we have discovered a new selective agonist at the hMC4R, Ac-Nle-c[Asp-Pro-D-Phe-Arg-Trp-Lys]-Pro-Val-NH2 (6, PG-931) which will be useful in further biologic investigations of the hMC4R. PG-931 was about 100-fold more selective for the hMC4R vs. the hMC3R (IC50 = 0.58 and 55 nm, respectively). Some of these new analogs have exceptional biologic potencies at the hMC5R and will be useful in further efforts to differentiate the substructural features responsible for selectivity at the hMC3R, hMC4R, and hMC5R.

Synthesis and biological evaluation on hMC3, hMC4 and hMC5 receptors of gamma-MSH analogs substituted with L-alanine.

To elucidate the molecular basis of the interaction of the native dodecapeptide gamma-MSH with the melanocortin receptors, we performed a structure-activity study in which we systematically replaced l-Ala in each position of this peptide. Here we report the binding affinity and agonist potency on human MC3R, MC4R and MC5R. Intracellular cAMP concentration was measured on CHO cells, and binding assays were carried out using membranes prepared from these cell lines which stably express hMC3R, hMC4R and hMC5R. Our results indicate that the last four amino acids in the C-terminal region of gamma-MSH are not important determinants of biological activity and selectivity at human melanocortin receptors. Interesting results were obtained when l-Ala was substituted for His6, Phe7, Arg8 and Trp9. For these peptides, the affinity and activity at all three human receptors (MC3R, MC4R and MC5R) decreased significantly, demonstrating that the His-Phe-Arg-Trp sequence in gamma-MSH is important for activity at these three melanocortin receptors. Similar results were obtained when Met3 was replaced with l-Ala, suggesting the importance of this position in the interaction with all three receptors. This study highlights the role played by the His-Phe-Arg-Trp sequence in receptor binding and in agonist activity of gamma-MSH.

Selective, high affinity peptide antagonists of alpha-melanotropin action at human melanocortin receptor 4: their synthesis and biological evaluation in vitro.

Peptide Ac-Nle(4)-cyclo(5beta-->10epsilon)(Asp(5)-His(6)-D-(2')Nal(7)-Arg(8)-Trp(9)-Lys(10))-NH(2), compound 1, a cyclic derivative of alpha-melanotropin, is a nonselective high affinity antagonist at human melanocortin receptors 3 and 4, and an agonist at melanocortin receptors 1 and 5. To differentiate between the physiological functions of these receptors, antagonists with improved receptor selectivity are needed. In this study, analogues of compound 1 without Ac-Nle(4) or His(6) and/or the amino group of Asp(5) were prepared and tested in binding assays and in functional assays on CHO cells expressing hMC3-5R. Several of these peptides were to be selective, high affinity hMC-4R antagonists. The most interesting was compound 10, named MBP10, cyclo(6beta-->10epsilon)(succinyl(6)-D-(2')Nal(7)-Arg(8)-Trp(9)-Lys(10))-NH(2), an antagonist (IC(50) = 0.5 nM) with 125-fold selectivity over hMC-3R (and of >300-fold selectivity over MC-1RB). This compound had no agonist activity at hMC-3R or hMC-4R and only weak agonist activity at hMC-5R. Examination of the sequences of these new peptides revealed that the D-(2')Nal(7)-Arg(8)-Trp(9) segment of peptide 1 forms the "essential core" required for high affinity and high selectivity of analogues of peptide 1 at hMC-4R, but the "extended core", His(6)-D-(2')Nal(7)-Arg(8)-Trp(9), is necessary for the maximum affinity for hMC-3R and hMC-5R.

Potent and selective peptide agonists of alpha-melanotropin action at human melanocortin receptor 4: their synthesis and biological evaluation in vitro.

alpha-Melanotropin (alphaMSH) and several of its derivatives are potent but not selective agonists at melanocortin receptors 3, 4, and 5 present in the brain (MC3-5R). To differentiate between the physiological role of hMC-4R (believed to be involved in regulation of energy balance) from those of melanocortin receptors 3 and 5, potent and receptor-specific agonists are needed. Therefore, the cyclic derivatives of alphaMSH of a general structure, cyclo(X-His-d-Phe-Arg-Trp-Y)-NH(2), where X is succinic acid or an omega-amino-carboxylic acid, and Y is an alpha,omega-di-amino-carboxylic acid or an omega-carboxy-alpha-amino acid, were prepared and tested in binding assays and in cAMP assays on CHO cells expressing hMC3-5R. Several of the 21-membered or larger lactams turned out to be potent and hMC-4R-selective agonists. For instance, cyclo(CO-CH(2)-CH(2)-CO-His-d-Phe-Arg-Trp-Dab)-NH(2) (Dab: 2,4-di-amino-butyric acid) was a potent agonist at hMC-4R (EC(50) = 4 nM) with 55-fold selectivity over hMC-3R and greater than 1000-fold selectivity over hMC-5R. Another potent and selective compound was cyclo(NH-CH(2)-CH(2)-CO-His-d-Phe-Arg-Trp-Glu)-NH(2): EC(50) about 1 nM at hMC-4R, with 90-fold selectivity over hMC-3R and greater than 2000-fold selectivity over hMC-5R.

Analogs of lactam derivatives of alpha-melanotropin with basic and acidic residues.

A role of the aromatic and of the basic residues of the potent agonist (MTII) and antagonist (SHU9119) at the human melanocortin receptors 4 in the formation and stabilization of ligand-receptor complexes was examined. Analogs of MTII and SHU9119 with glutamic acid replacing one amino acid at a time were synthesized and tested for their ability to bind to and activate human melanocortin receptors 3, 4, and 5. Replacement of Phe (Nal) or Trp with Glu resulted in analogs of MTII and SHU9119 which were practically inactive at the receptors studied. The rather large (and unexpected) tolerance toward the presence of Glu in the position of His or Arg of MTII and SHU9119 clearly suggested that in the ligand receptor complexes these basic residues are not in contact with the receptors but probably face the extracellular environment. This identified the aromatic residues of MTII and SHU9119 as the primary structural features determining interactions of the agonist/antagonist with hMCR3-5.

D-Amino acid scan of gamma-melanocyte-stimulating hormone: importance of Trp(8) on human MC3 receptor selectivity.

In our search for potent and receptor-selective agonists and antagonists, we report here the results of D-amino acid substitution at each position of the short peptide gamma-melanocyte-stimulating hormone (gamma-MSH). The native gamma-MSH shows weak binding at all three receptors (i.e., the human MC3, MC4, and MC5) and a selectivity of 1-2 orders of magnitude at the MC3R over the MC4R and MC5R. Sequential replacement of each residue in the gamma-MSH sequence with the corresponding D-isomer results in analogues which mostly have weaker binding affinity than the native peptide, except for two analogues. For the DTrp(8) analogue, there is an increase in binding affinity by about 1 order of magnitude (IC(50) = 6 nM) at the MC3R compared with that of the natural molecule and an increase in selectivity for the MC3R by 2 orders of magnitude compared with the activity at the MC4R and MC5R. The DPhe(6) analogue is about 10-fold more potent (IC(50) = 8.8 nM) at the MC3R compared with the native peptide but lacks subtype selectivity. Measurement of the intracellular cAMP accumulation in human MC3R, MC4R, and MC5R revealed that the native peptide shows potent activity at the MC3R (EC(50) = 5.9 nM) and is about 50-100-fold selective at this receptor compared with the MC4R and MC5R. The DArg(10) (EC(50) = 35 nM) and DPhe(11) (EC(50) = 11 nM) analogues are selective for the MC3R by 1 and 2 orders of magnitude compared with the MC4R and MC5R, respectively. The DTrp(8) compound (EC(50) = 0.33 nM) shows about 300- and 250-fold increase in selectivity at the MC3R compared with the MC4R and MC5R, respectively. Finally, the DTyr(1) peptide is selective for the MC3R (EC(50) = 12 nM) by 40-200-fold compared with the MC4R and MC5R. In general, the trend is that D-amino acid substitutions of the aromatic residues 1, 6, 8, and 11 and the basic residue Arg(10), but not Arg(7), result in an increase in MC3R selectivity over the MC4R and MC5R and only agonist activity is observed. Thus, the key residues of gamma-MSH identified in this study include the aromatic residues 1, 6, 8, and 11 and the basic residue Arg(10) (but not Arg(7)), as important for MC3 selectivity over the MC4 and MC5 subtypes. Further, the study reveals the extreme importance of DTrp at position 8 in imparting potency and selectivity since this is the most selective analogue for the human MC3R reported thus far.

Structure-function studies on the cyclic peptide MT-II, lactam derivative of alpha-melanotropin.

The alanine-substituted and the retro, enantio, and retro-enantio analogs of MT-II, a potent agonist at melanocortin (MC) receptors, were prepared by solid-phase synthesis and evaluated for their ability to bind and activate human MC3, MC4, and MC5 receptors. Replacement of His with Ala resulted in [Ala6]-MT-II with affinity and agonist potency at human MC3, MC4, and MC5 receptors similar to MT-II. Substitution of Arg with Ala gave compound 100-fold less potent than MT-II, but replacement of Phe or Trp with Ala led to inactive compounds (at the micromolar concentrations). The significant drop of potency of the retro, enantio, and retro-enantio analogs of MT-II, demonstrated a crucial role of side-chain topology, and to a lesser degree, of peptide backbone in interactions of MT-II with the melanocortin receptors. The nuclear magnetic resonance analysis of MT-II suggested involvement of Phe and Arg residues in H-bonds stabilizing the bent conformations of the peptide backbone.

Analogs of MTII, lactam derivatives of alpha-melanotropin, modified at the N-terminus, and their selectivity at human melanocortin receptors 3, 4, and 5.

In search for selective agonists at human melanocortin-4 receptor, proline-substituted analogs of MTII, a potent nonselective agonist at melanocortin receptors, were prepared by solid-phase syntheses and evaluated for their ability to bind and activate human MC-3, MC-4, and MC-5 receptors. Replacement of Nle(4) with Pro resulted in [Pro(4)]MTII with affinity to and agonist potency at hMC-4R similar to MTII, but with about 400-fold lower potency at hMC-5R and about 20-fold lower potency at hMC-3R. The substantial increase in selectivity of [Pro(4)]MTII with respect to hMC-5R prompted us to investigate additional analogs of MTII with modified N-termini. The Ac-Nle(4) segment, not encompassed in the lactam ring, was substituted with flexible, hydrophobic, or hydrophilic substituents, and also, with residues resembling proline. The similar agonist potency of these peptides to that of MTII at hMC-4R but significantly lower activity of these compounds at hMC-5R demonstrated that the N-terminal fragment of MTII has virtually no effect on the binding affinity and activation at hMC-4R, but it is essential for full potency at hMC-5R.

Molecular analysis of a new splice variant of the human melanocortin-1 receptor.

The primary hormonal regulator of pigmentation is melanocyte stimulating hormone derived from proopiomelanocortin by proteolytic processing. The melanocortin-1 receptor serves a key role in the regulation of pigmentation. We describe the identification of the first intron within a melanocortin receptor. A new melanocortin-1 receptor isoform, generated by alternative mRNA splicing, encodes an additional 65 amino acids at the predicted intracellular, C-terminal tail of the melanocortin-1 receptor. When expressed in heterologous cells, the new spliced form of the melanocortin-1 receptor (melanocortin-1 receptor B) appears pharmacologically similar to the non-spliced melanocortin-1 receptor. Melanocortin-1 receptor B is expressed in testis, fetal heart and melanomas.

Molecular interaction of Agouti protein and Agouti-related protein with human melanocortin receptors.

Agouti protein and the Agouti-related protein (AGRP) are antagonists of the melanocortin-3 receptor and melanocortin-4 receptor. Both proteins contain 10 cysteines in the C-terminal domain arranged in five disulfide bonds. One possible arrangement of the disulfide bonds predicts an octapeptide loop, and the chemical properties of four residues within this loop (residues 111-114 in human AGRP) bear striking resemblance to those of several melanocortin peptides, including alpha-MSH, MT-II, and SHU-9119. We showed that cyclic synthetic octapeptides based on the sequence of this loop from Agouti protein or human AGRP are functional antagonists of the human melanocortin-4 receptor. All peptides had a lower affinity for the melanocortin-3 receptor than for the melanocortin-4 receptor. Substitution of serines for cysteines resulted in linear peptides which had reduced binding affinities for both receptors. Mutational analysis of human AGRP indicated that its C-terminal domain is functionally equivalent to the intact human AGRP. The RFF111-113 triplet appears to be the most critical portion of AGRP in determining the binding affinity for both melanocortin-3 and melanocortin-4 receptors. These data strongly suggest that the loop defined by Cys-110 and Cys-117 is critical in determining the antagonist activity of human AGRP. Our data provide indirect evidence for the suggestion that the Cys-110 to Cys-117 octapeptide loop of human AGRP mimics the conformation of alpha-MSH, MT-II, and SHU-9119.

ART (protein product of agouti-related transcript) as an antagonist of MC-3 and MC-4 receptors.

The mRNA encoding an agouti related protein (ART) of unknown biochemical function was previously reported to be up-regulated in the hypothalamus of two genetically obese mouse strains. We have expressed human ART as a secreted protein in COS-7 cells, and show that recombinant ART is functionally active in inhibiting the binding of a radiolabeled alpha-melanocyte stimulating hormone (alpha-MSH) analog to the human melanocortin-3 (MC-3) and melanocortin-4 (MC-4) receptors, while it is not a potent inhibitor of the human melanocortin-5 (MC-5) receptor. ART is an antagonist of the human MC-3 and MC-4 receptors as determined in functional assay. ART appears to be approximately 100-fold more potent than agouti with reference to the MC-3R and MC-4R binding affinity. These data suggest that ART may be a physiological regulator of feeding behavior.

Partial agonists and full antagonists at the human and murine bradykinin B1 receptors.

We developed a functional assay to evaluate the activity of kinin peptides at the human and mouse bradykinin (BK) B1 receptors. The photoprotein aequorin expressed in 293-AEQ17 cells was used to measure calcium mobilization due to activation of the human or mouse B1 receptors by kinin peptides. The B1 agonists des-Arg9-BK and des-Arg10-kallidin activated the human receptor (EC50 = 112 and 5 nM, respectively), whereas the B1 peptide antagonists des-Arg9,Leu8-BK and des-Arg10,Leu9-kallidin showed no activation. At the murine receptor, the agonists des-Arg9-BK and des-Arg10-kallidin activated the receptor with EC50 values of 39 and 23 nM, respectively. In contrast, the two peptide antagonists showed significant agonism at the murine receptor. Thirty-nine and 44% agonism of the mouse receptor was observed with des-Arg9,Leu8-BK (EC50 = 56 nM) and des-Arg10,Leu9-kallidin (EC50 = 177 nM). Two recently described kinin analogues, [Lys-Lys0,Hyp3,Igl5,D-Igl7,Oic8,des-Arg9]B K and [D-Arg0,Hyp3,Igl5,D-Igl7, Oic8,des-Arg9]BK (B9858 and des-Arg9-B9430), failed to agonize the mouse receptor. These peptides were potent antagonists of des-Arg10-kallidin- and des-Arg9-BK-induced bioluminescence at the cloned human and mouse B1 receptors.

The agonist selectivity of a mouse B1 bradykinin receptor differs from human and rabbit B1 receptors.

A genomic clone encoding the mouse B1 receptor was isolated by homology to the human B1 receptor cDNA. The deduced amino acid sequence of the mouse B1 receptor is 72% identical to the human B1 receptor and 73% identical to the rabbit B1 receptor. Ligand binding studies of the mouse B1 receptor expressed in COS cells indicate that it has the pharmacological properties associated with the B1 receptor subtype. However the pharmacology of the mouse receptor is unique in that it possesses a 2-3-fold selectivity for the 'classical' B1 agonist des-Arg9BK over the agonist des-Arg10 kallidin. In contrast, the human and rabbit B1 receptors exhibit an approx. 2000- and 150-fold selectivity, respectively, for des-Arg10kallidin over des-Arg9BK. Thus relative to the human and rabbit B1 receptors the mouse B1 receptor has the opposite selectivity for kinin agonists. The DNA sequence of the region encoding bradykinin was determined for two different mouse kininogen cDNA clones, both encode the sequence Arg-BK. Antipeptide antibodies directed against a C-terminal peptide of the human B1 receptor were produced. Initial characterization of this antibody indicates that it detects specific bands by Western blot analyses that are present in membranes prepared from COS cells transfected with the human B1 receptor cDNA but not from mock transfected COS cells.

Cloning and pharmacological characterization of a rabbit bradykinin B1 receptor.

A rabbit B1 bradykinin receptor cDNA was isolated from a rabbit aorta smooth muscle cell library. The 1223 bp cDNA clone encodes a protein of 352 amino acids which is 78% identical to the human bradykinin B1(3) receptor protein. Heterologous expression of the rabbit B1 receptor cDNA in COS-7 cells imparts a high affinity specific binding for 3H-labeled [des-Arg10,Leu9]kallidin. Scatchard analysis indicates that the receptor binds the radiolabeled ligand with a Kd of 0.5 nM. The ability of kallidin (Lys-bradykinin) and bradykinin analogues to compete with binding of 3H-labeled [des-Arg10,Leu9]kallidin was determined and defined a rank order of potency: [des-Arg10,Leu9]kallidin = [des-Arg10]kallidin > [des- Arg9]bradykinin = kallidin >> bradykinin. This receptor exhibits the classical B1 pharmacological property of preferentially binding to kinin analogues which lack the C-terminal arginine. In addition, the affinities for [des-Arg10]kallidin and [des-Arg10,Leu9]kallidin are 100-fold higher than those for the corresponding bradykinin analogues [des-Arg9]bradykinin and [des-Arg9,Leu8]bradykinin which lack the N-terminal lysine. This pharmacological profile is characteristic of the B1 receptor subtype.

Expression cloning of a human B1 bradykinin receptor.

A cDNA clone encoding a human B1 bradykinin receptor was isolated from a human embryonic lung fibroblast cDNA library by expression cloning. The photoprotein aequorin was utilized as an indicator of the ability of the B1 receptor agonist [des-Arg10]kallidin to mediate Ca2+ mobilization in Xenopus laevis oocytes injected with RNA. A clone was isolated with a 1307-nucleotide insert which contains an open reading frame encoding a 353-amino acid protein with the characteristics of a G-protein-coupled receptor. The amino acid sequence of the B1 bradykinin receptor is 36% identical to the amino acid sequence of the B2 bradykinin receptor. The cloned B1 bradykinin receptor expressed in mammalian cells exhibits high affinity binding for 3H-labeled [des-Arg10]kallidin and low affinity for bradykinin. The B1 receptor antagonist [des-Arg10,Leu9]kallidin effectively displaces 3H-labeled [des-Arg10]kallidin from the cloned receptor, whereas the B2 receptor antagonist Hoe-140 (D-Arg0-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin, where Thi is L-[3-(2-thienyl)alanyl], Tic is D-(1,2,3,4-tetrahydroisoquinolin-3-yl-carbonyl), and Oic is L-[(3aS, 7aS)-octahydroindol-2-yl-carbonyl]) does not. Therefore, the expressed receptor has the pharmacological characteristics of the B1 receptor subtype. The availability of both the cloned human B1 and B2 bradykinin receptors should allow the elucidation of the relative contributions of these two receptor subtypes in acute and chronic inflammatory processes.

Cloning and pharmacological characterization of bradykinin receptors.

A human B2 bradykinin receptor cDNA was cloned from the lung fibroblast cell line, CCD-Lu. This clone was utilized to isolate a genomic clone of a mouse B2 bradykinin receptor. Both clones encode a protein that has the predicted characteristics of a seven transmembrane domain G-protein-coupled receptor. The DNA sequence of these two clones is 84% identical in the putative coding region. The clones have been heterologously expressed in a mammalian cell line lacking endogenous bradykinin receptors, COS-7, and a comparative analysis of their pharmacology was done. Both clones exhibit properties characteristic of the B2 bradykinin receptor, binding bradykinin with high affinity (KD = 0.1-0.2 nM) and binding des-Arg9 bradykinin with a very low affinity (IC50 > 5 microM). Interestingly, the mouse B2 bradykinin receptor has a 60-80 fold higher affinity than the human B2 bradykinin receptor for the peptide antagonists D-Arg0[Hyp3,Thi5,8,D-Phe7]bradykinin and D-Arg0[Hyp3,D-Phe7]bradykinin.

Correlation of the avermectin polyketide synthase genes to the avermectin structure. Implications for designing novel avermectins.

Streptomyces avermitilis produces a series of eight potent anthelmintic compounds called avermectins (AVM). AVM are pentacyclic, macrocyclic lactone compounds containing an oleandrose disaccharide. Labeling studies have shown that AVM is a polyketide derived from the condensation of 12 acyl units (five propionates and seven acetates) to an isobutyl or 2-methylbutyryl starter unit. The genes required for AVM biosynthesis have been cloned, and deletion mapping has located the AVM gene cluster to a 95-kb region. Partial DNA sequencing of this region indicates two 30-kb segments encode large, multifunctional peptides of the AVM polyketide synthase (PKS). The PKS proteins contain at least 49 domains with homology to the domains in fatty acid synthase and erythromycin PKS. These domains are arranged as 12 modular repeats that each encode a PKS unit with various subsets of the FAS-like functions. The predicted functions required to form the side groups on the AVM macrocyclic ring were compared to the functions found in the 12 PKS units. This comparison suggests that each PKS unit is specific for condensation and reduction of one acyl unit. If the various domains can be manipulated without disrupting the PKS, it may be possible to synthesize a variety of AVM derivatives.

Differential pharmacology of cloned human and mouse B2 bradykinin receptors.

The pharmacology of cloned B2 bradykinin receptors heterologously expressed in cell lines lacking any endogenous bradykinin receptors was analyzed. The possibility of B2 bradykinin receptor heterogeneity had been proposed on the basis of numerous studies in various tissue preparations. The results reported here permit a direct evaluation of some of these hypotheses by examining the pharmacological properties of cloned bradykinin receptors. A cloned human B2 bradykinin receptor was stably transfected into Chinese hamster ovary cells. The data suggest that in response to bradykinin (BK), the cloned receptor activates both phosphatidylinositol hydrolysis and arachidonic acid release by independent pathways. Thus, the activation of these two second messenger pathways does not require the existence of two B2 bradykinin receptor subtypes. A mouse gene encoding the B2 bradykinin receptor was isolated, and the coding region was expressed in COS-7 cells. This murine receptor exhibited the pharmacological properties of a "classical" B2 bradykinin receptor. A comparison of the pharmacological profiles of cloned human and murine homologs of the B2 bradykinin receptor indicates that both receptors bind agonists with similar properties. However, the two receptors differ dramatically in their affinity for some peptide antagonists. The mouse receptor has a 60- to 80-fold higher affinity for [D-Arg0Hyp3, Thi5,8,D-Phe7]BK and [D-Arg0,Hyp3,D-Phe7]BK than its human homolog. Thus, the species of a bradykinin receptor can have a significant effect on its pharmacology. The cloning, expression, and pharmacological comparison of human and mouse B2 bradykinin receptor genes indicate that some of the previous reports of B2 receptor subtypes can be explained by species differences in a single B2 bradykinin receptor gene.

Deletion analysis of the avermectin biosynthetic genes of Streptomyces avermitilis by gene cluster displacement.

Streptomyces avermitilis produces a group of glycosylated, methylated macrocyclic lactones, the avermectins, which have potent anthelmintic activity. A homologous recombination strategy termed gene cluster displacement was used to construct Neor deletion strains with defined endpoints and to clone the corresponding complementary DNA encoding functions for avermectin biosynthesis (avr). Thirty-five unique deletions of 0.5 to > 100 kb over a continuous 150-kb region were introduced into S. avermitilis. Analysis of the avermectin phenotypes of the deletion-containing strains defined the extent and ends of the 95-kb avr gene cluster, identified a regulatory region, and mapped several avr functions. A 60-kb region in the central portion determines the synthesis of the macrolide ring. A 13-kb region at one end of the cluster is responsible for synthesis and attachment of oleandrose disaccharide. A 10-kb region at the other end has functions for positive regulation and C-5 O methylation. Physical analysis of the deletions and of in vivo-cloned fragments refined a 130-kb physical map of the avr gene cluster region.