Nck2, an unexpected regulator of adipogenesis.

The regulation of adipose tissue expansion by adipocyte hypertrophy and/or hyperplasia is the topic of extensive investigations given the potential differential contribution of the 2 processes to the development of numerous chronic diseases associated with obesity. We recently discovered that the loss-of-function of the Src homology domain-containing protein Nck2 in mice promotes adiposity accompanied with adipocyte hypertrophy and impaired function, and enhanced adipocyte differentiation in vitro. Moreover, in severely-obese human's adipose tissue, we found that Nck2 expression is markedly downregulated. In this commentary, our goal is to expand upon additional findings providing further evidence for a unique Nck2-dependent mechanism regulating adipogenesis. We propose that Nck2 should be further investigated as a regulator of the reliance of white adipose tissue on hyperplasia versus hypertrophy during adipose tissue expansion, and hence, as a potential novel molecular target in obesity.

[Hygiene is not cleanliness. For a new definition of hygiene promotion in emergency humanitarian aid]. / Hygiène n'est pas propreté. Pour une nouvelle définition de la promotion de l'hygiène en aide humanitaire d'urgence.

Following the Kosovo crisis, this paper questions the contents of hygiene kits to be distributed to refugees, the definition of hygiene and the hygiene promotion practises in emergency aid work. Hygiene promotion cannot be reduced to cleanness promotion. We have to consider refugees' psychosocial needs and trauma as well as the problems of refugees settlement as a community and of community mobilisation to conceive programmes meeting population's needs and demands. Hygiene promotion should include systematic attempts to implement community services by volunteer refugees. One has to be careful also that the financial mechanisms of aid do not pervert programmation.

Casein kinase I associates with members of the centaurin-alpha family of phosphatidylinositol 3,4,5-trisphosphate-binding proteins.

Mammalian casein kinases I (CKI) belong to a family of serine/threonine protein kinases involved in diverse cellular processes including cell cycle progression, membrane trafficking, circadian rhythms, and Wnt signaling. Here we show that CKIalpha co-purifies with centaurin-alpha(1) in brain and that they interact in vitro and form a complex in cells. In addition, we show that the association is direct and occurs through the kinase domain of CKI within a loop comprising residues 217-233. These residues are well conserved in all members of the CKI family, and we show that centaurin-alpha(1) associates in vitro with all mammalian CKI isoforms. To date, CKIalpha represents the first protein partner identified for centaurin-alpha(1). However, our data suggest that centaurin-alpha(1) is not a substrate for CKIalpha and has no effect on CKIalpha activity. Centaurin-alpha(1) has been identified as a phosphatidylinositol 3,4,5-trisphosphate-binding protein. Centaurin-alpha(1) contains a cysteine-rich domain that is shared by members of a newly identified family of ADP-ribosylation factor guanosine trisphosphatase-activating proteins. These proteins are involved in membrane trafficking and actin cytoskeleton rearrangement, thus supporting a role for CKIalpha in these biological events.

Functional Rac-1 and Nck signaling networks are required for FGF-2-induced DNA synthesis in MCF-7 cells.

The effects of Fibroblast Growth Factor-2 (FGF-2) on breast cancer cell DNA synthesis are controversial. To elucidate the mechanisms by which FGF-2 stimulates or inhibits DNA synthesis, we analysed FGF-2 signaling pathways in breast cancer MCF-7 and MCF-7 cells overexpressing Ha-Ras (MCF-7ras). We found that FGF-2-induction of DNA synthesis correlates with Ras transient activation, FRS-2 tyrosine phosphorylation and low level of expression of p66Shc. In addition, Nck-associated proteins are highly tyrosine phosphorylated and JNK reaches a higher level of activation when FGF-2 triggers DNA synthesis. Interestingly upon FGF-2 treatment, JNK activation and DNA synthesis are dependent on Rac-1 activity. These results confirm that in MCF-7 cells, induction of DNA synthesis by FGF-2 requires a transient activation of the Ras/MAPK cascade and demonstrates for the first time that intact Rac-1 and Nck signaling networks are required.

Serine phosphorylation of the ligand-activated beta-platelet-derived growth factor receptor by casein kinase I-gamma2 inhibits the receptor's autophosphorylating activity.

Platelet-derived growth factor (PDGF) receptors (PDGFRs) are membrane protein-tyrosine kinases that, upon activation, become tyrosine-phosphorylated and associate with numerous SH2 domain-containing molecules involved in mediating signal transduction. In Rat-2 fibroblasts, we have characterized the phosphorylation of the beta-PDGFR following its activation by PDGF. In contrast to tyrosine phosphorylation, which was transient and returned to near basal levels by 30 min, PDGF-stimulated Ser/Thr phosphorylation of the beta-PDGFR was increased by 5 min and remained elevated after 30 min. In vivo, after 5 min of PDGF stimulation, serine phosphorylation of the beta-PDGFR was greatly reduced by CKI-7, a specific inhibitor of casein kinase I (CKI). In vitro, recombinant CKI-gamma2 phosphorylated the ligand-activated beta-PDGFR on serine residues in a CKI-7-sensitive manner and resulted in a marked inhibition of the receptor's autophosphorylating activity. Furthermore, in Rat-2 fibroblasts, expression of hemagglutinin epitope-tagged active CKI-gamma2 resulted in a dramatic decrease in the tyrosine phosphorylation state of the beta-PDGFR in response to PDGF, consistent with receptor inactivation. Our data suggest that upon PDGF stimulation, CKI-gamma2 is activated and/or translocated in proximity to the beta-PDGFR, whereby it phosphorylates the beta-PDGFR on serine residues and negatively regulates its tyrosine kinase activity, leading to receptor inactivation.

Angiotensin II stimulates serine phosphorylation of the adaptor protein Nck: physical association with the serine/threonine kinases Pak1 and casein kinase I.

Nck is a small adaptor protein consisting exclusively of three SH3 domains and one SH2 domain. Nck is thought to have an important role in cell signalling by coupling receptor tyrosine kinases, via its SH2 domain, to downstream SH3-binding effectors. We report here that angiotensin II, working through the AT1 receptor subtype, stimulates the phosphorylation of Nck in rat aortic smooth muscle cells. Phosphopeptide mapping analysis revealed that Nck is phosphorylated on four peptides containing exclusively phosphoserine in quiescent cells. Treatment with angiotensin II resulted in increased phosphorylation of these four peptides, without the appearance of new phosphopeptides. We show that Nck, via its SH3 domains, specifically binds three major phosphoproteins of 95, 82 and 66 kDa both in vitro and in intact cells. Notably, the phosphorylation of these Nck-binding proteins was found to increase in parallel with that of Nck on stimulation by angiotensin II. One candidate for the 66 kDa phosphoprotein is the serine/threonine kinase p21-activated kinase 1 (Pak1), which was found to form a stable complex with Nck in aortic smooth muscle cells. We have also identified the gamma2 isoform of casein kinase I as another protein kinase that associates with Nck in these cells. These findings indicate that Nck is a target of G-protein-coupled receptors and suggest a role for Pak1 and casein kinase I-gamma2 in downstream signalling or regulation of the AT1 receptor.

SHP-1 binds and negatively modulates the c-Kit receptor by interaction with tyrosine 569 in the c-Kit juxtamembrane domain.

The SH2 domain-containing SHP-1 tyrosine phosphatase has been shown to negatively regulate a broad spectrum of growth factor- and cytokine-driven mitogenic signaling pathways. Included among these is the cascade of intracellular events evoked by stem cell factor binding to c-Kit, a tyrosine kinase receptor which associates with and is dephosphorylated by SHP-1. Using a series of glutathione S-transferase (GST) fusion proteins containing either tyrosine-phosphorylated segments of the c-Kit cytosolic region or the SH2 domains of SHP-1, we have shown that SHP-1 interacts with c-Kit by binding selectively to the phosphorylated c-Kit juxtamembrane region and that the association of c-Kit with the larger of the two SHP-1 isoforms may be mediated through either the N-terminal or C-terminal SHP-1 SH2 domain. The results of binding assays with mutagenized GST-Kit juxtamembrane fusion proteins and competitive inhibition assays with phosphopeptides encompassing each c-Kit juxtamembrane region identified the tyrosine residue at position 569 as the major site for binding of SHP-1 to c-Kit and suggested that tyrosine 567 contributes to, but is not required for, this interaction. By analysis of Ba/F3 cells retrovirally transduced to express c-Kit receptors, phenylalanine substitution of c-Kit tyrosine residue 569 was shown to be associated with disruption of c-Kit-SHP-1 binding and induction of hyperproliferative responses to stem cell factor. Although phenylalanine substitution of c-Kit tyrosine residue 567 in the Ba/F3-c-Kit cells did not alter SHP-1 binding to c-Kit, the capacity of a second c-Kit-binding tyrosine phosphatase, SHP-2, to associate with c-Kit was markedly reduced, and the cells again showed hyperproliferative responses to stem cell factor. These data therefore identify SHP-1 binding to tyrosine 569 on c-Kit as an interaction pivotal to SHP-1 inhibitory effects on c-Kit signaling, but they indicate as well that cytosolic protein tyrosine phosphatases other than SHP-1 may also negatively regulate the coupling of c-Kit engagement to proliferation.

A casein kinase I activity is constitutively associated with Nck.

Nck is a 47-kDa cytosolic protein devoid of intrinsic catalytic activity and consisting of Src homology 2 and 3 (SH2 and SH3) domains organized as follows: SH3-SH3-SH3-SH2. Nck is believed to act as an adaptor protein mediating signal transduction initiated by receptor tyrosine kinases (RTKs). Through its SH2 domain, Nck recognizes a specific phosphotyrosine residue on RTKs or on protein substrates of RTKs like insulin receptor substrate-1, the major substrate of the insulin receptor, and through its SH3 domains it interacts with poorly characterized effector molecules. To identify novel proteins that might interact with Nck, we have used the amino-terminal segment of Nck encompassing its three SH3 domains in the yeast two-hybrid system. Among the polypeptides that associate with Nck, we have identified the gamma2 isoform of the serine/threonine casein kinase I (CKI-gamma2). In transformed rat hepatocytes overexpressing the insulin receptor (HTC-IR cells), serine/threonine protein kinase activity coimmunoprecipitates with Nck, an interaction mediated mainly by the third SH3 domain of Nck. This kinase activity is not apparently modulated by insulin, nor is it sensitive to staurosporine or heparin, and it does not use GTP as a phosphate donor. However the kinase activity coimmunoprecipitated with Nck is completely abolished by N-(2-aminoethyl)-5-chloroisoquinoline-8-sulfonamide, a specific inhibitor of casein kinase I. In an in vitro renaturation gel kinase assay, a protein kinase of 70-75 kDa was detected associated with the SH3 domains of Nck. Far Western analysis demonstrated that the SH3 domains of Nck bound directly to a cytosolic protein of 70-75 kDa. A rabbit polyclonal antibody raised against the C-terminal region of CKI-gamma2 protein kinase immunoprecipitated a single specific protein of 70-75 kDa from HTC-IR cell lysates and detected CKI-gamma2 among the proteins coimmunoprecipitated with Nck. These results support an in vivo interaction between Nck and CKI-gamma2 and suggest that CKI-gamma2 could be involved in signaling pathways downstream of RTKs.

Construction of an SH2 domain-binding site with mixed specificity.

SH2 domains bind to specific phosphotyrosine-containing sites in a fashion dictated by the amino acids flanking the phosphotyrosine. Attention has focused on the role of the three COOH-terminal positions (+1 to +3) in generating specificity. Autophosphorylation of Tyr1021 in the tail of the beta-receptor for platelet-derived growth factor creates a specific binding site for the COOH-terminal SH2 domain of phospholipase C (PLC)-gamma 1. We show that the residues 4 and 5 amino acids COOH-terminal to Tyr1021 (+4 Leu and +5 Pro) are required for efficient PLC-gamma 1 binding, and that their replacement with the corresponding residues from a phosphatidylinositol 3'-kinase binding site abrogates stable association with PLC-gamma 1. In contrast, replacement of the +3 Pro with Met produces a Tyr1021 site with mixed specificity that binds both PLC-gamma 1 and phosphatidylinositol 3'-kinase. This motif is rendered specific for phosphatidylinositol 3'-kinase by further substitution of the +4 Leu. These results indicate that the +4 and +5 residues are important for the selective binding of specific SH2 domains. This study suggests that phosphotyrosine sites can be tailored to bind one or more SH2 domains with high affinity, depending on the combination of residues in the +1 to +5 positions.

Identification of residues in the beta platelet-derived growth factor receptor that confer specificity for binding to phospholipase C-gamma 1.

The SH2 domains of cytoplasmic signaling proteins bind to autophosphorylated growth factor receptors by direct recognition of specific phosphotyrosine-containing sites. To identify the phosphotyrosine involved in association of phospholipase C (PLC)-gamma 1 with the beta platelet-derived growth factor receptor (PDGFR), and to investigate which contiguous residues confer specificity for PLC-gamma 1, phosphotyrosine-containing glutathione S-transferase (GST) fusion proteins possessing different regions of the beta-PDGFR were incubated with lysates of Rat-2 cells that overexpress PLC-gamma 1. The phosphorylated C-terminal tail of the PDGFR bound PLC-gamma 1, but did not associate with phosphatidylinositol (PI) 3'-kinase or GTPase-activating protein (GAP). High-affinity binding of PLC-gamma 1 was dependent on phosphorylation of Tyr-1021. Creation of a new phosphorylation site by replacing Asp-1018 with tyrosine did not restore binding of PLC-gamma 1 in the absence of Tyr-1021, indicating that the location of the phosphorylated tyrosine is important for PLC-gamma 1 binding. Substitution of the proline at the +3 position relative to Tyr-1021 with methionine (Y1021IIP-->Y1021IIM) in the phosphorylated PDGFR tail did not alter PLC-gamma 1 association, but conferred binding activity towards PI 3'-kinase, indicating that this residue is critical in discriminating between PLC-gamma 1 and PI 3'-kinase. Progressive conversion of the three residues C-terminal to Tyr-1021 to the consensus for PI 3'-kinase binding (YMDM) allowed PI 3'-kinase association, but did not block PLC-gamma 1 binding, suggesting that additional residues other than the three residues immediately following the phosphotyrosine may contribute to the association of PLC-gamma 1 with the PDGFR. These results indicate that phosphorylation at Tyr-1021 in the tail of the PDGFR creates a specific binding site for PLC-gamma 1. Proline at the +3 position relative to Tyr-1021 is crucial in conferring specificity for binding to PLC-gamma 1.

Distribution and regulation of natriuretic factor-R1C receptor subtypes in mammalian cell lines.

The differential distribution of natriuretic peptide receptor subtypes and their distinct properties were assessed in mammalian cellular models which were screened for their ability to produce cGMP upon stimulation by different natriuretic peptides. The ANF-R1A receptor subtype was distinguished by its selective activation by atrial natriuretic factor (ANF) while the ANF-R1C was characterized by preferential stimulation by C-type natriuretic peptide (CNP). AT-620 pituitary cells, bovine adrenal chromaffin cells, and NIH-3T3 fibroblasts mainly express the ANF-R1C receptor subtype. Other cell lines such as PC12, RASM and GH3 express significant but varying amounts of both ANF-R1A and ANF-R1C subtypes. A10 and NIH cells which express high density of ANF-R2 receptor subtype, also demonstrate a higher sensitivity to CNP over ANF suggesting that they express significant amounts of ANF-R1C. Studies of the regulation by ATP of guanylyl cyclase activity indicate that both ANF-R1A and ANF-R1C subtypes are modulated in the same manner. In the presence of Mn2+, ATP inhibits the CNP-stimulated guanylyl cyclase activity while in the presence of Mg2+ adenine nucleotides potentiate the stimulation by CNP. In addition, we show that like the ANF-R1A, the ANF-R1C guanylyl cyclase activity can be regulated by phosphorylation since preincubation with TPA or FKL attenuates the subsequent stimulation by CNP in cultured cells. The results presented demonstrate that specific cell types express distinct natriuretic peptide receptor subtypes and also that the newly characterized ANF-R1C subtype is regulated by ATP and serine/threonine kinases in the same way as the ANF-R1A subtype.

Dietary myo-inositol supplementation does not prevent retinal and glomerular vascular structural changes in chronically diabetic rats.

To assess effects of dietary myo-inositol supplementation on diabetes-induced vascular structural lesions, diabetes was induced in Sprague-Dawley rats with streptozotocin; one-third of these rats was fed a 2% myo-inositol diet for 9 months, one-third was left untreated for 5 months then treated with myo-inositol for the last 4 months, and one-third was untreated for the entire 9 months. Controls included untreated and myo-inositol-treated groups. Weight gain was impaired and plasma glucose, glycosylated hemoglobin, food consumption, urine volume, and albuminuria were increased significantly in diabetic versus age-matched control rats. Plasma myo-inositol levels were increased approximately fivefold in controls and approximately six- to eightfold in diabetic rats treated with myo-inositol. In general, myo-inositol did not affect any of the above parameters in control or diabetic rats. Retinal capillary basement membrane width (CBMW) was increased significantly (approximately 50% versus controls) after 9 months of diabetes. In the control group myo-inositol increased CBMW to the level of untreated diabetic rats; myo-inositol had no effect on CBMW in each diabetic group. The number of retinal capillaries containing pericyte nuclei and pericyte capillary coverage were increased in untreated as well as myo-inositol-treated diabetic rats and in the myo-inositol-treated control group. Glomerular CBMW was increased after 5 and 9 months of diabetes versus age-matched controls, and was increased even more by myo-inositol. Mesangial fractional volume of the glomerulus was increased 36% by diabetes and was decreased slightly but significantly by myo-inositol. These results indicate that diets supplemented with 2% myo-inositol (1) cause capillary basement membrane (CBM) thickening and pericyte changes in retinal capillaries of normal rats, (2) are ineffective in preventing or reversing diabetes-induced retinal CBM thickening, and (3) cause further thickening of glomerular CBM in diabetic rats.

Phosphorylation of atrial natriuretic factor R1 receptor by serine/threonine protein kinases: evidences for receptor regulation.

The 130 kDa atrial natriuretic factor receptor (ANF-R1) purified from bovine adrenal zona glomerulosa is phosphorylated in vitro by serine/threonine protein kinases such as cAMP-, cGMP-dependent and protein kinase C. This phosphorylation is independent of the presence of ANF (99-126) and there is no detectable intrinsic kinase activity associated with the ANF-R1 receptor or with its activated form. In bovine adrenal zona glomerulosa cells, TPA (phorbol ester) induces a marked inhibition of the ANF-stimulated cGMP accumulation as well as of the membrane ANF-sensitive guanylate cyclase catalytic activity without any change in the binding capacity or affinity for 125I-ANF. However, we have demonstrated a significant 32P incorporation in the ANF-R1 receptor of the TPA-treated cells. The effect of TPA on the zona glomerulosa ANF-R1 receptors was abolished by calphostin C, a specific protein kinase C inhibitor. Altered ANF actions due to blunted response of guanylate cyclase to ANF could be a consequence of the ANF receptor phosphorylation by excessive activity of protein kinase C and might be involved in the pathogenesis of hypertension.

Interactions between hypertension and diabetes on vascular function and structure in rats.

Regional 125I-albumin permeation and glomerular structural changes were assessed in male Sprague-Dawley rats with diabetes and/or hypertension. All rats underwent unilateral nephrectomy 2 weeks after induction of diabetes with streptozotocin. At the same time, one-half of the nondiabetic and diabetic animals were placed on 1% saline drinking water and given weekly intramuscular injections of deoxycorticosterone acetate to induce hypertension (systolic blood pressure greater than 150 mm Hg). Vascular permeability studies were performed after 1 and 3 months of hypertension. Hypertension, alone or in combination with diabetes, had no effect on weight gain, plasma glucose, or food consumption, but did increase 24-h urine volume in nondiabetics. In normotensive diabetics and in nondiabetic hypertensive rats, vascular 125I-albumin permeation was increased in eyes, aorta, and new granulation tissue (formed in a subcutaneous fabric implant), and glomerular basement membranes were thickened without any change in the fractional volume of the glomerulus occupied by mesangium. Urinary albumin and IgG excretion in nondiabetic hypertensive rats was increased much more than in normotensive diabetics. Hypertension and diabetes were additive in their effects on 125I-albumin permeation in eyes, aorta, and granulation tissue, and on glomerular basement membrane thickening, but were synergistic in their effects on urinary albumin excretion and mesangial fractional volume. The magnitude of the increase in vascular albumin permeation and urinary albumin and IgG excretion between and 1 and 3 months was much larger in diabetic hypertensive rats than in rats with hypertension or diabetes alone. Neither diabetes nor hypertension, alone or in combination, had any effect on albumin permeation in skeletal muscle, skin, heart, or brain. These findings demonstrate that hypertension and diabetes increase vascular albumin permeation in rats preferentially in tissues that correspond to sites of clinically significant vascular disease in human diabetics. They also attest to an important interaction between blood pressure-induced and diabetes-induced increases in vascular permeability in these tissues and in structural changes in the glomerular vasculature.

Production of polyclonal antibody to the bovine adrenal atrial natriuretic factor-R1 receptor.

A polyclonal antibody monospecific for an intracellular epitope of the atrial natriuretic factor (ANF)-R1 receptor was produced. The receptor protein (200 pmoles) was purified to homogeneity from bovine adrenal zona glomerulosa (BAZG), reduced, alkylated and digested with trypsin. The tryptic fragments were purified by reverse-phase h.p.l.c. on a C18 column. Based on the sequence of one of these fragments, a peptide was chemically synthesized, coupled to thyroglobulin and injected into rabbits. The antibody obtained was shown to be specific for the R1-type as no receptor was detected in bovine red blood cells (RBC) (which are devoid of ANF receptors) and in NIH-3T3 cell membranes (where only the R2-type is expressed). Several other tissues were screened and comparison of the immunoreactive receptor density estimates with those obtained by ANF binding yielded a correlation coefficient (r2) of 0.965. The minimal detectable dose was typically 3 fmoles/tube and the ED50 of the RIA was 30 fmoles/tube. Cyanogen bromide digestion of the receptor was essential for antigenic detection, indicating that the epitope is probably hindered due to the tertiary structure of the native protein. Moreover, location of the epitope in the kinase homology domain of the receptor, combined with partial tryptic digestion, suggests that the proteolysis-sensitive region of the receptor is located between the transmembrane-spanning domain and the amino acid 586. This method of production of antibodies should be useful to precisely map the amino acids involved in various functions of the receptor.

Discordant effects of the aldose reductase inhibitor, sorbinil, on vascular structure and function in chronically diabetic and galactosemic rats.

Effects of sorbinil, an aldose reductase inhibitor, were examined on renal glomerular structure, urinary albumin and IgG excretion, and vascular albumin permeation in eyes and aorta of 8-month diabetic, galactose-fed, and age-matched control rats. Sorbinil was added to the diet of one-half of the rats in each group at the time of induction of diabetes and galactosemia. Weight gain was impaired in diabetic and galactose-fed rats versus controls and was improved slightly in corresponding sorbinil-treated groups. Plasma glucose and glycosylated hemoglobin levels, food consumption, and 24-hr urine volume were increased in diabetic rats and were unaffected by sorbinil treatment. Food consumption and glycosylated hemoglobin levels were increased in galactose-fed rats, although the increases were smaller than in diabetic rats; glycosylated hemoglobin levels were decreased by sorbinil. Diabetes- and galactosemia-induced increases in albumin permeation in eyes and aorta were prevented by sorbinil. Urinary excretion of albumin and IgG was increased by diabetes and decreased by sorbinil, although differences between the two diabetic groups were not statistically significant for albumin. Galactosemia was associated with an increase in urinary albumin and IgG excretion that did not reach statistical significance. Glomerular capillary basement membrane width (GBMW) was increased in diabetic versus age-matched control rats but was unaffected by galactose feeding. GBMW was increased in controls fed sorbinil and glomerular capillary basement membrane thickening in diabetic rats was not prevented by sorbinil. The fractional volume of the glomerulus occupied by mesangium (Vvmes) was increased in diabetic and galactose fed rats versus age-matched controls, and was unaffected by sorbinil.(ABSTRACT TRUNCATED AT 250 WORDS)

Allosteric modulation by ATP of the bovine adrenal natriuretic factor R1 receptor functions.

Atrial natriuretic factor (ANF-R1) receptor is a 130-kDa protein that contains a cytoplasmic guanylate cyclase domain. We report that ATP interacts in an allosteric manner with the ANF-R1 receptor, resulting in reduced ANF binding and enhanced ANF-stimulated guanylate cyclase activity. The modulatory properties of various nucleotides indicate a preference for the adenine family with a rank order of potency of ATP greater than App(NH)p greater than or equal to ADP greater than or equal to AMP while cyclic and guanine nucleotides except GTP are inactive. The negative modulation by ATP of ANF binding is specific for the ANF-R1 receptor subtype since the amount of ANF bound by the guanylate cyclase uncoupled ANF-R2 subtype is increased in the presence of ATP. Furthermore, the effects of ATP on ANF-R1 receptor binding function are still observed with the affinity-purified ANF-R1 receptor, suggesting an allosteric binding site for ATP on the ANF-R1 receptor. In intact membranes, limited proteolysis of the ANF-R1 receptor with trypsin dose-dependently prevents the ATP-induced decrease in ANF binding concomitantly with the formation of a membrane-associated ANF-binding fragment of 70 kDa. These results confirm the direct modulatory role of ATP on hormone binding activity of ANF-R1 receptor and suggest that the nucleotide regulatory binding site is located in the intracellular domain vicinal to the protease-sensitive region.

Photoaffinity labelling of atrial natriuretic factor (ANF)-R1 receptor by underivatized 125I-ANF. Involvement of lipid peroxidation.

In bovine adrenal zona glomerulosa, atrial natriuretic factor (ANF) exerts its physiological effect through high-affinity binding to specific membrane receptors. On studying further the molecular properties of the ANF receptor binding domain, we have observed that incubation of intact or solubilized bovine adrenal zona glomerulosa membranes with 125I-ANF-(99-126) followed by u.v. irradiation results in the irreversible labelling of a 130 kDa protein corresponding to the ANF-RI receptor. This process is time-, protein- and 125I-ANF-dependent. The apparently covalent nature of this complex is documented by its resistance to heat, guanidine hydrochloride, urea and trichloroacetic acid denaturation. Photolabelling with underivatized 125I-ANF is much more efficient with the ANF-R1 than with the ANF-R2 receptor. After photolysis, the covalently linked 125I-ANF is still sensitive to digestion by carboxypeptidase A, suggesting that ANF is linked by its N-terminal end to the receptor upon u.v. irradiation and that its C-terminal end is still freely accessible. Aerobic conditions and lipids are required for the photolabelling, suggesting a role in this process for malondialdehyde, a highly reactive secondary product associated with u.v.-induced lipid peroxidation. This simple method should provide a powerful tool in the accurate characterization of the hormone-binding domain of the ANF receptor.

Carbamylcholine and phorbol esters desensitize muscarinic receptors by different mechanisms in rat pancreatic acini.

Pretreatment of rat pancreatic acini with phorbol 12-myristate, 13-acetate (PMA), a protein kinase C (PK-C) activator, caused the desensitization of carbamylcholine (CBC)-induced amylase release in a concentration- and time-dependent fashion. The less potent phorbol-12, 13-dibutyrate (PDBu) also provoked a desensitization, but the inactive 4-alpha-phorbol-12,13-didecanoate had no effect. PMA or PDBu also significantly reduced subsequent amylase release induced by caerulein or secretin in contrast to CBC, which only reduced amylase release induced by CBC or secretin. Preincubation of acini with PMA did not lead to a decrease in PMA or A23187-stimulated amylase release. A 3 h resting period did not restore the desensitization induced by PMA or PDBu. Pretreatment with PMA did not cause changes in muscarinic receptor high- and low-affinity populations as observed with CBC pretreatment. The PK-C inhibitor H-7 completely prevented the desensitization induced by PDBu but not that induced by CBC. TMB-8, another PK-C inhibitor, also completely prevented the desensitization induced by PDBu but only partially that induced by CBC. These results suggest that phorbol esters can induce desensitization of muscarinic receptor-stimulated amylase release by a different mechanism than that involved in muscarinic agonist-induced desensitization.