Bovine adrenal chromaffin granules are a site of synthesis of atrial natriuretic factor

We have previously reported the existence of a peptide factor in the adrenal medulla which inhibits aldosterone secretion in cultured bovine zona glomerulosa cells. The acid extracts of chromaffin granules from bovine adrenal medulla were purified by a four step high performance liquid chromatography procedure. Two active fractions exhibited sequence homology with bovine atrial natriuretic factor ANF (Ser99-Tyr126) and its polypeptide precursor (Asn1-Tyr126). The occurrence of both precursor and mature forms of ANF within chromaffin granules indicates the endogenous character of ANF in the adrenal medulla and suggests the potential usefulness of cultured adrenal chromaffin cells for investigating the synthesis, maturation and secretion of atrial peptides.     

Identification of aldosterone secretion inhibitory factor in bovine adrenal medulla

We report the first demonstration of an Aldosterone Secretion Inhibitory Factor (ASIF) in acid extracts of bovine adrenal medulla. Following separation from catecholamines and enkephalins, this factor leads to an 80% inhibition of PGE1-stimulated secretion of aldosterone from bovine adrenal zona glomerulosa. ASIF is retained on cation exchange gels and behaves as a small 5K-dalton peptide on Sephadex G-50. This factor cross-reacts in a radio-receptor assay for [125I] atrial natriuretic factor (ANF). ASIF is distinct from all neuropeptides formerly detected in the adrenal medulla, e.g. somatostatin, enkephalin, neuropeptide Y, dynorphin, neurotensin. In the adrenal gland, this ANF-like factor is predominantly found in the medulla (4 pmol/mg protein), with only trace amounts in the cortex (0.1 pmol/mg protein). ASIF might perhaps correspond to the endogenous ligand for the receptor sites that we have previously identified with [125I]ANF in bovine adrenal cortex and could contribute to the formerly reported attenuating influence of the adrenal medulla on mineralocorticoid production.     

Characterization of specific receptors for atrial natriuretic factor in bovine adrenal zona glomerulosa

We have recently shown that synthetic rat atrial natriuretic factor (ANF) directly inhibits mineralocorticoid and glucocorticoid secretion in cultured bovine adrenal cells with a potency of 100 pM. [125I]iodo-ANF was used in the present study to characterize potential receptor sites in bovine zona glomerulosa membranes. ANF binds to a class of high affinity binding sites with a pK of 10.2 and a density of 1.3 pmol/mg protein. Detailed competition curves with ANF document a class of high affinity sites with a pK of 10.2 and also a second class of lower affinity sites with a pK of 8.5. Nonspecific binding amounts to less than 10% of [125I]iodo-ANF binding at concentrations less than 100 pM. High affinity binding of [125I]iodo-ANF is reversible with a half-time of association of 15 minutes at 25 pM and a half-time of dissociation of 140 minutes. Monovalent cations Na, Li and K equipotently enhance [125I]iodo-ANF specific binding. Divalent cations Mg, Ca and Mn also increase [125I]iodo-ANF specific binding, with Mn being the most active cation. No effect of guanine nucleotide could be detected on ANF binding. The binding of [125I]iodo-ANF is very specific and is not inhibited by 1 microM angiotensin II, ACTH, VIP, somatostatin, Leu-enkephalin, dynorphin or by the N-terminal of POMC. The N-terminal fragment ANF-(1-16) is also completely inactive. Reduction of the disulfide bridge of ANF inactivates the peptide. This enabled the development of a highly specific radio-receptor assay for ANF with a minimum detectable dose of 2 femtomoles. The results document the specific receptor involved in the potent inhibitory effect of ANF on adrenal steroidogenesis and indicate that bovine adrenal zonal glomerulosa provide a highly sensitive system for studying the recently discovered atrial natriuretic factor.     

Chromogranin from normal human adrenal glands: purification by monoclonal antibody affinity chromatography and partial N-terminal amino acid sequence

A method is presented for the purification of human chromogranin from adrenal glands obtained at autopsy. The procedure involved homogenization of whole glands in aqueous buffer, salt precipitation, affinity chromatography using a highly specific monoclonal antibody (LK2H10) and reverse-phase high-pressure liquid chromatography. Chromogranin purified from autopsy adrenal glands revealed a high degree of polypeptide heterogeneity when analyzed by silver-stained SDS polyacrylamide gels. Greater than 90% of the protein was represented by a cluster of polypeptides with an Mr = 70 000 (i.e. chromogranin A), while the remaining protein was highly disperse in molecular weight. That these various polypeptides were in fact chromogranin was shown by Western blotting using monoclonal antibody LK2H10. About 6 nmol of chromogranin were obtained from 97 g of starting adrenals which was estimated to be a 25% yield and a 250-fold enrichment from adrenal homogenates. Critical to achieving reasonable yields of this protein was the need for particular low pH buffers for resuspension of chromogranin after solvent removal steps. Chromogranin purified from human adrenal glands was similar in amino acid composition, and identical in the N-terminal amino acid sequence (24 residues) to bovine chromogranin A. A secondary sequence representing 25% of the total protein and missing the first three residues of the N-terminus suggested the possibility of N-terminal processing of chromogranin in situ. The conservation of the N-terminal amino acid sequence of human and bovine chromogranin contrasts with the strong sequence variability predicted by antisera cross-reactivity and suggests that the N-terminus of chromogranin may be critical for its biological activity.     

Purification of rat pro-atrial natriuretic factor: a simplified scheme using reversed-phase high-performance liquid chromatography

A simple scheme for the rapid and efficient isolation of rat pro-atrial natriuretic factor (pro-ANF) has been developed. An isolated rat adrenal cell bioassay for ANF was established to optimize heart tissue extraction and chromatography conditions. This assay is based on the ability of ANF to inhibit angiotensin II-stimulated aldosterone secretion. IC50 values for ANF were approximately 320 pM. The protocol that was established consisted of extraction of rat atria in 5 N acetic acid containing protease inhibitors. The extract was lyophilized, resolubilized in 0.1% trifluoroacetic acid containing 1% (w/v) sodium chloride, and subjected to RP-HPLC. Extraction of small batches of atria (i.e., from 10 or 20 rats) resulted generally in a yield of 2 nmol per rat (i.e., approximately 30 micrograms). The identity and purity of the pro-ANF were confirmed by the determination of both the amino acid composition and the amino-terminal sequence. Purified pro-ANF was radioiodinated and the efficiency of the extraction and purification procedure was assessed by adding labeled peptide to the initial tissue extract. The structural integrity and overall recovery of radioactivity were determined by RP-HPLC. The purification scheme provides undamaged pro-ANF of high purity. Purified pro-ANF was compared with synthetic rat ANF in the rat adrenal glomerulosa cell and isolated rat aortic strip bioassays. The peptides were apparently equally active in the adrenal cell system and approximately threefold less potent in relaxing aortic strips. The apparent equipotency in the adrenal cell bioassay may be due to the conversion of pro-ANF to ANF-like peptides during the bioassay incubation.     

Synthesis and biological activity profiles of atrial natriuretic factor (ANF) analogs

Several analogs of the atrial natriuretic factor (ANF) were synthesized by the solid-phase method using the acetamidomethyl (Acm) group for sulfhydryl protection. The compounds were tested in a receptor binding assay using bovine adrenal zona glomerulosa cell membranes and in the rat diuresis/natriuresis assay. Substitution of tyrosine in position 116 of ANF(101-126) and of the analog [3-Mpr105]ANF(105-126)(3-Mpr = 3-mercaptopropionic acid) did not alter the biological activity profiles and, therefore, these two analogs in radioiodinated form will be useful for enzymatic degradation and clearance studies. Replacement of 3-mercaptopropionic acid with 2-mercaptopropionic acid in [3-Mpr105]ANF(105-126) resulted in an analog with very low potency in both assay systems, presumably as a consequence of the steric bulk and/or local conformational restriction produced by the methyl group attached to the alpha-carbon in position 105. The analog [3-Mpr105,Nva109]ANF(105-126)(Nva = norvaline) showed very low affinity in the receptor binding assay but displayed considerable diuretic/natriuretic activity. The obtained biological activity profiles suggest that in comparison with other ANF peptides the des-amino ANF(105-126) analogs may have a somewhat longer half-life in vivo, or alternatively, may indicate a more complex situation of ANF receptor or binding site heterogeneity.     

Purification and primary structure of pro-aldosterone secretion inhibitory factor from bovine adrenal chromaffin cells

This report documents the purification and the complete primary structure of bovine aldosterone secretion inhibitory factor precursor (pro-ASIF). ASIF-(1-103) contains at position 69-103 of its carboxy-terminal end the formely identified 35-amino acid biologically active form, hence confirming the endogenous character of ASIF in the adrenal medulla. Compared to atrial natriuretic factor (ANF)-related peptide precursors, bovine ASIF displays 65% homology at the carboxy-terminal while the remaining amino-terminal part shows much more variability. Bovine pro-ASIF exhibits 73% homology with porcine pro-brain natriuretic peptide (BNP), a situation reminiscent of the relationship of pro-ANF in various species. When ANF- and BNP-related COOH-termini of bovine, porcine, human, rat, and chicken are compared, it appears that bovine ASIF and porcine BNP are closely related and belong to the same family which however appears to be much more heterogenous than the ANF-related family. These results strongly suggest that bovine ASIF is encoded by a precursor gene similar to the gene of BNP but different from the one encoding ANF.     

Atrial natriuretic factor: radioimmunoassay and effects on adrenal and pituitary glands

A simple and sensitive radioimmunoassay was developed for measurement of immunoreactive atrial natriuretic factor (IR-ANF) in rat and human plasma and in rat atria. The two atria contain about 20 micrograms ANF per rat. The right atrium contained 2.5 times more ANF than did the left. Ether anesthesia and morphine markedly increased IR-ANF in rat plasma. The concentration of IR-ANF in plasma of clinically normal human subjects was 65.3 +/- 2.5 pg/ml. Paroxysmal tachycardia and rapid atrial pacing significantly increased IR-ANF in human plasma. Two- to seven-fold higher concentrations were found in coronary sinus blood than in the peripheral circulation. In the plasma of rats and humans, circulating ANF is probably a small-molecular-weight peptide. ANF acts on the adrenal and the pituitary. ANF inhibits aldosterone secretion from rat zona glomerulosa and steroid secretion by bovine adrenal zona glomerulosa and fasciculata. ANF stimulated the basal secretion of arginine vasopressin (AVP) in vitro and inhibited KCl-stimulated release of AVP.     

Identification of a peptidase which processes atrial natriuretic factor precursor to its active form with 28 amino acid residues in particulate fractions of rat atrial homogenate

With the objective of identifying specific peptidase responsible for the processing of atrial natriuretic factor precursor pro-ANF to the circulating active form ANF (99-126), a fluorometric assay method was devised using synthetic fluorogenic substrate Boc-Ala-Gly-Pro-Arg-MCA(methylcoumarinamide) which contains the amino acid sequence immediately adjacent to the arginyl peptide bond which is cleaved in the natural processing of pro-ANF. A protease which selectively cleaves this bond and produces the natural circulating peptide was identified in the particulate fraction of rat atrial homogenate and was solubilized by 1.6 M KCl. It was partially purified by affinity chromatography heparin-agarose column and was shown to be a serine protease. Its reaction product with natural pro-ANF was identified as ANF (99-126) containing 28 amino acid residues.     

Photoaffinity labeling of atrial natriuretic factor receptor in bovine and rat adrenal cortical membranes

Radioiodinated synthetic atrial natriuretic factor (ANF) bound to a single class of high affinity binding sites in the plasma membrane from bovine adrenal cortex with a KD of 7.4 X 10(-10) M. The binding affinities of related peptides showed close parallelism to their potencies in natriuretic and vasorelaxant activities. Incubation of adrenal membranes with radioiodinated 4-azidobenzoyl ANF or a similar derivative of its analogue followed by photolysis resulted in specific radiolabeling of a protein band in SDS gel electrophoresis with an apparent Mr of 124,000 in bovine or Mr of 126,000 in rat, which was abolished by inclusion of unmodified ANF in the incubation. Prevention of the labeling was dependent on the concentration of ANF and was not observed with atriopeptin I or with unrelated peptides, angiotensin II, ACTH or [Arg8] vasopressin. These results indicate specific covalent labeling of ANF-receptor or its subunit by the photoaffinity ligands.     

Atrial natriuretic factor R1 receptor from bovine adrenal zona glomerulosa: purification, characterization, and modulation by amiloride

The atrial natriuretic factor (ANF) R1 receptor from bovine adrenal zona glomerulosa was solubilized with Triton X-100 and purified 13,000-fold, to apparent homogeneity, by sequential affinity chromatography on ANF-agarose and steric exclusion high-performance liquid chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining of the purified receptor preparation in the absence or presence of dithiothreitol revealed a single protein band of Mr 130,000. Affinity cross-linking of 125I-ANF to the purified receptor resulted in the labeling of the Mr 130,000 band. The purified receptor bound ANF with a specific activity of 6.8 nmol/mg of protein, corresponding to a stoichiometry of 0.9 mol of ANF bound/mol of Mr 130,000 polypeptide. Starting with 500 g of adrenal zona glomerulosa tissue, we obtained more than 500 pmol of purified receptor with an overall yield of 9%. The purified receptor showed a typical ANF-R1 pharmacological specificity similar to that of the membrane-bound receptor. The homogeneous Mr 130,000 receptor protein displayed high guanylate cyclase activity [1.4 mumol of cyclic GMP formed min-1 (mg of protein)-1] which was not stimulated by ANF. This finding supports the notion that the ANF binding and the guanylate cyclase activities are intrinsic components of the same polypeptide. Finally, the purified ANF-R1 receptor retained its sensitivity to modulation by amiloride, suggesting the presence of an allosteric binding site for amiloride on the receptor protein.     

Synthesis and biological activity of a linear fragment of the atrial natriuretic factor (ANF)

A linear fragment of the atrial natriuretic factor, ANF(106-125), unable to form an intramolecular cystine bridge, was synthesized by the solid-phase method. The fragment showed smooth muscle relaxant activity in the rabbit aorta and chick rectum assays, an inhibitory effect on aldosterone secretion from bovine adrenal zona glomerulosa cells, and had affinity for specific ANF receptors located in zona glomerulosa cell membranes. The potency of ANF(106-125) in these four assay systems was about two to three orders of magnitude lower than that of ANF(103-125) which contains the intact cyclic structure. The obtained results indicate that the disulfide linkage stabilizes the bioactive conformation of ANF peptides but is not an absolute requirement for biological activity.     

Identification of a biologically active circulating form of rat atrial natriuretic factor

An atrial natriuretic peptide has been isolated from plasma of morphine treated rats by means of glass beads extraction, immunoaffinity chromatography, and reverse phase HPLC. 1.3 micrograms of immunoreactive material was obtained. The biological activity of this material was found comparable to that of ANF (Arg 101 - Tyr 126) on the inhibition of basal aldosterone secretion by rat adrenal zona glomerulosa cells and the displacement curve of iodinated ANF from ANF receptors in a mesenteric artery preparation. Gas phase amino acid sequencing indicated that it is related to ANF (Ser 99 - Tyr 126). These results suggest that the maturation of ANF may require a tryptic-like cleavage after a single Arg residue.     

Actions of synthetic atrial natriuretic factor on bovine adrenal glomerulosa

Synthetic atrial natriuretic factor (ANF) inhibited aldosterone production by suspensions of bovine adrenal glomerulosa cells. Inhibition by ANF was most pronounced when basal aldosterone production was measured. The effects of angiotensin II (AII), N6,O2'-dibutyryl-adenosine 3':5'-cyclic monophosphate (dibutyryl cyclic AMP), and elevated potassium were also inhibited by ANF. Inhibition could be partially overcome by high doses of agonist. Inhibition was localized to the early pathway of aldosteronogenesis, to a step before cholesterol side-chain cleavage. ANF had no effect on binding of AII to receptors, on the stimulation by AII of phospholipid turnover, or on the alteration by AII of calcium fluxes.     

Highly efficient photoaffinity labeling of the hormone binding domain of atrial natriuretic factor receptor.

A high-efficiency photoaffinity derivative of atrial natriuretic factor (ANF) was developed for studying the peptide binding domain of the receptor protein and for better characterization of this receptor in tissues with a low density of binding sites. The position of the photosensitive residue was chosen on the basis of a molecular conformational model and on structure-activity relationship studies which both indicate that the carboxy-terminal end of the peptide is part of a hydrophobic pole likely to interact deeply within the ANF binding pocket of the receptor. Selection of the photoreactive residue p-benzoylphenylalanine (BPA) as a substitute for arginine in position 125 of the peptide sequence led to a photoaffinity derivative with a high (63%) efficiency of covalent incorporation to the receptor protein. This derivative (BPA-ANF) has a 10-fold lower affinity when compared with ANF, but it is a full agonist in stimulating cGMP production and inhibiting aldosterone secretion in bovine adrenal zona glomerulosa. Photoaffinity labeling with BPA-ANF specifically identifies ANF-R1 and ANF-R2 receptor proteins with a 10-fold higher efficiency than with azido derivatives of ANF or with cross-linking agents. This new ANF derivative therefore appears to be useful for studying ANF receptors in tissues with low levels of expression, for locating receptor following cellular internalization, and for tagging proteolytic fragments of the receptor amenable to amino acid microsequencing.     

N-terminal sequence analysis of atrial granule serine proteinase purified by affinity chromatography

Atrial granule serine proteinase is considered the leading candidate endoproteolytic processing enzyme of pro-atrial natriuretic factor. Its cleavage specificity is directed toward a monobasic amino acid processing site, and as such, the atrial enzyme is distinguished from the family of prohormone convertases which act at dibasic amino acid processing sites. To delineate the molecular mechanisms which distinguish monobasic from dibasic amino acid-directed processing enzymes, pure atrial enzyme is needed for sequence determination leading to molecular cloning, and for preparation of antisera. An affinity chromatography purification scheme seemed a logical modification of our established procedures to yield suitable amounts of enzyme for further studies. Surprisingly, pseudo-peptide bond inhibitors of the atrial enzyme [Damodaran and Harris (1995),J. Protein Chem., this issue] formed ineffective affinity ligands, even though these compounds contain essential residues on either side of what would be the scissile bond in a peptide substrate. On the other hand, tripeptide aldehydes (based on the substrate recognition sequence of the atrial enzyme) linked to Sepharose formed effective affinity matrices, permitting purification of the enzyme in a single step from a subcellular fraction enriched for atrial granules and lysosomes. Hence, the enzyme was purified 2000-fold in 90% overall yield, and subjected to N-terminal sequence analysis through 26 residues. The sequence determined, XXPEAAGLPG[R, L]GNPVP[F, G]R[Q, I]XY[G, E]XR(N, A]V, indicates that the atrial enzyme is unique, showing little sequence homology to other proteins in the database.Abbreviations AGSP atrial granule serine proteinase - ANF atrial natriuretic factor - BSA bovine serum albumin - Bz benzoyl - EACA 6()-aminocaproic acid - HEPES N-2-hydroxyethylpiperazine-N'-propanesulfonic acid - HPLC high-performance liquid chromatography - PEG polyethylene glycol-3350 - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Single-letter abbreviations are used to denote amino acids     

Cloning and expression of the atrial natriuretic factor gene

Atrial natriuretic factor (ANF) is a 28-amino acid peptide hormone with potent natriuretic, diuretic and vasodilator properties. Isolation and DNA sequence analysis of rat and human cDNA clones revealed that ANF is synthesized from a 126-amino acid precursor which is highly conserved in both species. Southern blot analysis indicated that the ANF gene is present in a single copy per haploid genome. Both human and rat ANF genes were isolated and showed a similar structural organization which consisted of three exons and two introns. The ANF gene was localized to the short arm of human chromosome 1 and mouse chromosome 4. While atria are the major site of expression of the ANF gene in adult heart, other tissues like ventricles, lung, anterior pituitary, hypothalamus and adrenal synthesize ANF albeit to a much lower extent. In ventricles, ANF mRNA levels are 150 times lower than in atria. However, in cardiac hypertrophy or in congestive heart failure, ventricular ANF mRNA and peptide levels are dramatically (100-fold) increased both in animal models and in humans. This suggests that ventricles are a major site of ANF gene expression in certain pathophysiological conditions and that ANF is not an exclusively atrial peptide as was originally thought.     

Functional heterogeneity of atrial natriuretic factor receptor in bovine adrenal zona glomerulosa is explained by an amiloride-sensitive high affinity molecular complex

The effects of amiloride on the molecular characteristics of the atrial natriuretic factor (ANF) receptor from bovine adrenal zona glomerulosa were studied by computer modeling of competitive binding data, by affinity labeling experiments, and by steric exclusion high performance liquid chromatography of solubilized receptor. The order of potency of a series of truncated ANF analogs in competing for 125I-ANF binding to bovine adrenal zona glomerulosa membranes was the same as that obtained for inhibition of aldosterone secretion. Deletion of amino acids at the COOH-terminal end drastically reduced the affinities of the peptides. Computer analysis of competition curves revealed that all ANF analogs tested show similar binding characteristics: shallow competition curves, discrimination of varying proportions of high and low affinity binding states, and sensitivity to amiloride which increases the proportion of the high affinity binding component. These results from binding studies are suggestive of potential heterogeneity of ANF binding sites. In contrast, results from affinity cross-linking experiments are consistent with the notion of a single receptor protein. Incubation of membranes with increasing concentrations of 125I-ANF-(99-126) up to 3 nM resulted in the labeling of a single band of Mr 130,000. The ability of ANF analogs to compete for the labeling of the Mr 130,000 band by 125I-ANF-(99-126) agreed well with their potency as inhibitors of 125I-ANF binding to intact membranes. Addition of amiloride caused a dose-dependent increase in the labeling of the Mr 130,000 band. A single Mr 130,000 band was also labeled in bovine aorta and LLC-PK1 cell membranes. In order to further investigate the molecular basis for the apparent heterogeneity of ANF binding we have prelabeled the membrane receptor with 125I-ANF-(99-126) prior to solubilization with octyl-beta-D-glucoside and chromatography on a Superose 6 steric exclusion column. The elution profile of the prelabeled receptor consistently showed two peaks of radioactivity with mean Stokes radii of 70 and 50 A. When amiloride was added to the incubation medium, the elution profile consisted almost exclusively of the 70-A peak. Quantitative analysis of the chromatographic profiles revealed that amiloride increases by 2-3 times the area of the 70-A peak. We conclude that the 70-A form represents a ternary complex of the receptor with an amiloride-sensitive effector protein.     

New signal transduction mechanisms of atrial natriuretic factor: inhibition of phosphorylation of protein kinase C and A 240 kDa protein in adrenal cortical plasma membrane by cGMP dependent and independent mechanisms

The effects of synthetic atrial natriuretic factor (ANF) on the state of protein phosphorylation in plasma membranes of bovine adrenal cortex have been studied in vitro. ANF (1x10(-8)M - 1x10(-7)M) specifically inhibited the phosphorylation of two distinct proteins of 78 kDa and 240 kDa. Immunoblotting with specific antiserum to protein kinase C produced evidence that 78 kDa protein is most likely the protein kinase C whose phosphorylation is inhibited by both ANF and cGMP. However, cGMP did not affect the phosphorylation of 240 kDa protein, indicating a new cGMP-independent mechanism of ANF action in the adrenal, which is compatible with the lack of action of cGMP and its analogs in ANF-induced inhibition of aldosterone secretion from adrenal cortex. The inhibition of phosphorylation of putative protein kinase C by ANF or cGMP indicates a hitherto unknown signal transduction mechanism of ANF.     

The primary structure of glycoprotein III from bovine adrenal medullary chromaffin granules. Sequence similarity with human serum protein-40,40 and rat Sertoli cell glycoprotein.

Glycoprotein III (GpIII) was purified from the soluble fraction of bovine chromaffin granules, the secretory vesicles of the adrenal medulla, by chromatography using wheat germ agglutinin-Sepharose followed by reverse-phase high performance liquid chromatography (HPLC). Characterization of this glycoprotein by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, reverse-phase HPLC, amino acid analysis and partial NH2-terminal sequence analysis indicated that GPIII was a disulfide-linked heterodimer with 37-kDa subunits. Analysis of in vitro translation products of adrenal medullary poly(A)+ RNA by immunoprecipitation using an anti-GpIII serum and sodium dodecyl sulfate-polyacrylamide gel electrophoresis suggested that both subunits are synthesized from a single precursor. Partial NH2-terminal sequence analysis allowed construction of oligonucleotides which were used as primers for a polymerase chain reaction to generate a GpIII-specific DNA probe. This probe was used to isolate a cDNA clone encoding the GpIII precursor from a bovine adrenal medullary cDNA library. The predicted amino acid sequence of GpIII has greater than 80% similarity to human serum protein-40,40, a protein implicated in the complement system, and to a major secretory product of Sertoli cells, glycoprotein 2, which is thought to play a role in spermatogenesis. Northern blot analysis confirmed that RNA encoding GpIII is also abundant in liver, testis, and brain.