Cytoplasmic androgen binding protein of rat liver: molecular characterization after photoaffinity labeling and functional correlation with the age-dependent synthesis of alpha 2u-globulin

The liver of the mature male rat contains a moderate affinity (Kd = 10(-8)M), low-capacity, cytoplasmic androgen binding protein (CAB) whose appearance during puberty and disappearance during senescence correlate with the androgen-dependent synthesis of alpha 2u-globulin. Molecular properties of CAB were examined by photoaffinity labeling with tritiated methyltrienolone (R-1881), a synthetic androgen, and by its localization within the hepatocytes which are competent to produce alpha 2u-globulin. Photoaffinity labeling of the liver cytosol derived from postpubertal male rats, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography, showed a predominant androgen binding band corresponding to Mr 31,000. This 31-kilodalton (kDa) binding component was conspicuously absent in the liver of androgen-insensitive prepubertal and senescent male rats and in adult male rats treated with estradiol-17 beta. In addition, unlike the cytoplasmic extract, the nuclear lysate of the male rat hepatocytes did not contain the 31-kDa androgen binder. Disappearance of the 31-kDa androgen binding band from the cytosolic fraction of androgen-insensitive animals was associated with a concomitant appearance of a minor androgen binding component of apparent Mr 29,000. The livers of postpubertal male rats normally contain two subpopulations of hepatocytes, only one of which is highly active (competent) in alpha 2u-globulin synthesis. Separation of these two subpopulations through a fluorescence-activated cell sorter followed by whole cell labeling showed more than a 2-fold higher uptake of R-1881 by the competent cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Purification of alpha 1-microglobulin produced by human hepatoma cell lines. Biochemical characterization and comparison with alpha 1-microglobulin synthesized by human hepatocytes

alpha 1-Microglobulin (alpha 1m) was determined by radio-immunoassay in the supernatants of five human hepatoma cell lines. High amounts of alpha 1m were produced by PLC/PRF/5, intermediate ones by Hep G2 and Hep 3B and very low ones by Malhavu and SK Hepl. alpha 1m isolated from hepatoma cell lines PLC/PRF/5 or Hep G2 supernatants displayed the same physicochemical properties as that purified from human urines: the apparent molecular mass was 26 kDa and the pI from 5.6 to 6.4 as measured after two-dimensional polyacrylamide gel electrophoresis in denaturating conditions; for the native molecule the pI was estimated to be 4.0-4.9. Both urinary and hepatoma alpha 1m migrate as a diffuse band in the alpha zone in agarose gel at pH 8.6 in non-denaturing conditions and present a brown chromophore covalently associated with the molecule. After biosynthetic labelling with [35S]methionine, proteins extracted from hepatoma cell line PLC/PRF/5 and from isolated hepatocytes of human liver were separated by two-dimensional PAGE and transferred to a nitrocellulose membrane. alpha 1m was identified and found to be identical in both cases. However, when compared with the alpha 1m isolated from cell supernatants, less charge heterogeneity but also minor additional spots of higher molecular mass were observed.

Androgenic regulation of hepatic gene expression

Androgen-dependent synthesis of alpha 2u globulin in the rat liver has been used in our laboratory as a model for studying the effect of sex hormones on hepatic gene expression. alpha 2u Globulin is a group of low molecular weight (Mr approximately 18,000) male specific urinary proteins synthesized and secreted by hepatocytes. In the male rat hepatic synthesis of alpha 2u globulin begins at puberty (approximately 40 days), reaches a peak level (approximately 20 mg/day) at about 75 days and declines during old age. Androgens can induce alpha 2u globulin in ovariectomized female rats in vivo and in the liver perfusion system in vitro. However, both prepubertal and senescent (greater than 800 days) male rats not only do not produce alpha 2u globulin but are also refractory to androgen administration. alpha 2u Globulin is coded by a multigene family comprising about 20-30 gene copies per haploid genome. All of these gene copies seem to express translationally active mRNAs giving rise to individual isoforms of alpha 2u globulin. Appearance and disappearance of the cytoplasmic androgen-binding protein (CAB) correlates with the androgen responsiveness of hepatocytes. Photoaffinity labeling of the hepatic cytosol shows that the biologically active binding protein, found in the cytosol of the mature male rat liver, has a molecular weight of 31 kDa. A molecular transition of the 31-kDa CAB to a biologically inactive 29-kDa form may be the basis of hepatic androgen insensitivity during prepuberty and senescence.

Cellular interactions in the hormonal induction of alpha 2u-globulin in rat liver

The role of hepatocellular interaction in the androgen-dependent synthesis of rat alpha 2u-globulin was examined by immunochemical analysis of liver sections. Both after androgen administration to the ovariectomized female and during puberty in the male, only a subpopulation of hepatocytes became competent to synthesize alpha 2u-globulin. These competent hepatocytes first appeared as discontinuous patches along the wall of the central vein. After the formation of a confluent layer around the central vein, cellular competency was seen to propagate toward the periportal direction through the cords of hepatic cells. Although the periportal progression of cellular competency for the synthesis of alpha 2u-globulin appeared to be an all-or-none phenomenon, it did not require cell division. From these results we conclude that certain components of the central vein are necessary for the hormonal induction of alpha 2u-globulin in the rat liver. We also propose that a primary endocrine influence on the hepatic vein results in the production of a secondary paracrine mediator which can trigger the synthesis of alpha 2u-globulin in adjacent hepatocytes. Perivenous to periportal flow of this putative secondary mediator can explain cell recruitment for the synthesis of alpha 2u-globulin along the hepatic cords.

Effect of anterior hypothalamic deafferentation and continuous growth hormone infusion on the hepatic synthesis of alpha 2u-globulin in the male rat

Anterior hypothalamic deafferentation and infusion of human GH (hGH) in the normal male rat caused a marked reduction in the hepatic concentration of alpha 2u-globulin, an androgen-dependent protein. Although s.c. injections of hGH (twice-daily) resulted in more than a 50% reduction in the hepatic level of alpha 2u-globulin, the same dose of hGH when administered continuously through osmotic minipumps caused a threefold greater inhibition. The decreased hepatic concentration of alpha 2u-globulin after hGH administration was associated with corresponding changes in the hepatic level of translatable alpha 2u-globulin messenger RNA. Continuous infusion of hGH through osmotic minipumps and removal of the anterior hypothalamic influence on GH secretion by deafferentation also caused a marked reduction in the cytoplasmic androgen-binding activity of the rat liver. These results suggest that alterations in the level and pattern of GH secretion may influence hepatic androgen-binding activity and alpha 2u-globulin synthesis.

Induction of alpha 2u globulin mRNA by phenobarbital in rat liver: characterization of a cDNA clone

A clone has been selected from a cDNA library previously constructed from phenobarbital pre-treated rat liver polysomal poly(A)+ RNA, which was reverse transcribed. The double-stranded cDNA was inserted by GC homopolymeric tailing in the Pst I site of pAT 153, and further cloned in E. coli HB101. This clone, called 2A9, corresponds to a mRNA whose concentration is increased five fold 16 h after phenobarbital treatment. Its length is 1200 nucleotides as revealed by RNA dot and Northern blot analysis respectively. The two strands of a 450 bp fragment from the 2A9 580 bp double-stranded cDNA insert have been sequenced and proven to correspond to alpha 2u globulin mRNA. It shows one single bp difference from the sequence previously published by Unterman et al. (1981, PNAS, 78, 3478). Thus, alpha 2u globulin, a hormone regulated gene product, is inducible by phenobarbital.

Developmental and hormonal regulation of alpha 2u-globulin gene transcription

Hepatic alpha 2u-globulin protein and RNA levels are under developmental and complex multihormonal control. The present studies directly evaluate the degree to which this regulation is transcriptional. alpha 2u-Globulin transcription was determined by measuring nuclear runoff RNA in vitro, and tissue alpha 2u-globulin mRNA levels were measured by dot blot hybridization. These studies reveal that (i) in male rats the transcriptional rate of the alpha 2u-globulin genes increases during postnatal development; (ii) no alpha 2u-globulin transcription is detectable in hepatic nuclei derived from hypophysectomized rats; (iii) growth hormone and glucocorticoid are both absolutely required, and glucocorticoid can replace androgen for alpha 2u-globulin gene transcription in the livers of hypophysectomized male rats; and (iv) chronic treatment of mature male rats with estrogen results in a progressive decrease in the hepatic transcription of alpha 2u-globulin genes. In all instances changes in the transcriptional rate of alpha 2u-globulin genes paralleled the tissue level of alpha 2u-globulin RNA. Thus transcriptional control predominates in regulating hepatic alpha 2u-globulin RNA levels.

Monoclonal antibodies to alpha 2u-globulin and immunocytofluorometric analysis of alpha 2u-globulin-synthesizing hepatocytes during androgenic induction and aging

Stable hybridomas generated by fusion of spleen cells from hyperimmunized mice and mouse myeloma cells were cloned to prepare monoclonal antibodies to alpha 2u-globulin, an androgen-dependent urinary protein of hepatic origin. One of these monoclonal antibodies was used as a probe for immunocytofluorometric analysis of alpha 2u-globulin producing hepatocytes during androgenic induction and aging through fluorescence-activated cell sorting (FACS). FACS patterns of hepatocytes from mature male rats that produce high levels of alpha 2u-globulin showed tow distinct peaks, arbitrarily designated as peak I (weakly fluorescent) and peak II (brightly fluorescent). In the mature male rat, peak II represented about 40% of the total hepatocytes, and the fluorescence intensity of this subpopulation decreased in direct correspondence with the gradual decline of alpha 2u-globulin synthesis during aging. Similarly the androgenic induction of this protein in ovariectomized female rats was associated with an increase in the fluorescence intensity of the hepatocyte subpopulation under peak II rather than an increase in the relative number of these cells. From these results we conclude that the androgen-dependent synthesis of alpha 2u-globulin and its alteration during aging are confined to a specific subpopulation of hepatocytes within the liver.

Inter-alpha-trypsin-inhibitor (ITI): two distinct mRNAs in baboon liver argue for a discrete synthesis of ITI and ITI derivatives

Human serum inter-alpha-trypsin-inhibitor (ITI) has so far been assumed to be comprised of a single polypeptide chain which can undergo fragmentation, whereby inhibitory ITI derivatives are released into the blood stream. In contrast, the analysis of the baboon liver mRNA translation products showed that ITI is made up of heavy and light chain(s). The latter may be excreted independently and very likely corresponds to the so-called ITI derivatives.

Sexual dimorphism in the liver

That the liver in oviparous females supplies the major part of the egg yolk proteins requires a marked degree of sexual dimorphism of this organ. In addition to vitellogenin, several minor components (e.g. vitamin binding proteins) are supplied by the liver to the oocyte in oviparous animals and to the developing embryo in viviparous females. Other metabolic adjustments to maintain reproductive competency of the female (e.g. increased lipid synthesis, detoxification of the waste products of the developing embryo, and reproductively sensible steroid metabolism) are some of the physiological bases for the differences between the female and male liver. Sex-differences in several other hepatic proteins, enzymes, and hormone receptors have also been established. alpha 2mu Globulin, Bond's protein, and carbonic anhydrase are clear examples of the sex specificity of rat liver. Differential expression of the genes for the male- and female-specific proteins in the liver is brought about by the androgenic and estrogenic hormones. The hepatic receptors for these hormones also show a marked degree of sexual dimorphism. During development and aging, these receptors seem to appear when the need for these hormones is most critical. The timely appearance of the hepatic estrogen and androgen receptor and the facilitated action of these hormones are mediated through "pre- and neonatal imprinting" by the sex hormones, especially androgen. Exploration of the physiological and molecular basis of this "imprinting" mechanism remains an exciting area of contemporary endocrinology.

Regulation of a thyroid hormone-dependent protein by growth hormone: the induction of hepatic alpha 2U globulin and its messenger ribonucleic acid in adult male hypothyroid rats

Studies in the adult male hypothyroid rat, a known GH-deficient animal, have shown hepatic alpha 2U-globulin mRNA to be dependent on thyroid hormones. To study the effects of GH on alpha 2U-globulin synthesis in the absence of thyroid hormones, adult male rats were rendered hypothyroid before hormone treatment. The relative effects of bovine GH or T3 were studied by RIA of alpha 2U-globulin in hepatic cytosol in rats 6 weeks after thyroid ablation. alpha 2U-Globulin levels in vehicle-treated controls were 1.3 +/- 0.7 micrograms (+/- SD) alpha 2U-globulin/mg protein. After 2 days, GH (200 micrograms/100 g X day) resulted in an increase to 5.7 +/- 1.0 micrograms alpha 2U-globulin/mg (P less than or equal to 0.05), and T3 50 micrograms/100 g X day) resulted in an increase to 11.5 +/- 3.6 micrograms/mg (P less than or equal to 0.01). After 7 days, GH resulted in an increase to 12.4 +/- 4.6 micrograms/mg (P less than or equal to 0.01), and T3 resulted in an increase to 28.7 +/- 8.7 micrograms/mg (P less than or equal to 0.01). After 4 months of thyroid ablation, baseline hepatic alpha 2U-globulin levels fell to 4.8 ng alpha 2U-globulin/mg protein. Hepatic alpha 2U-globulin was determined 4 and 8 h after the injection of GH (200 micrograms/100 g). In these animals with markedly diminished hepatic alpha 2U-globulin levels, significant (P less than or equal to 0.01) increases occurred 4 h (25.4 ng/mg) and 8 h (57.2 ng/mg) after GH injection. The effects of treatment with bovine GH (200 micrograms/100 g X day) for 3 days on hepatic alpha 2U-globulin synthesis in liver slices and alpha 2U-globulin poly (A)+ RNA levels were measured in rats 10 weeks after thyroid ablation. GH significantly (P less than 0.05) increased alpha 2U-globulin synthesis as a percentage of total protein synthesis (from 0.01% to 0.035%) and alpha 2U-globulin mRNA as a percentage of total mRNA (from 0.03% to 0.24%). The results show that GH rapidly and specifically stimulates hepatic alpha 2U-globulin and its mRNA activity in thyroid hormone-deficient rats.

Disparate effects of monensin and colchicine on intracellular processing of secretory proteins in cultured rat hepatocytes

We have studied the biosynthesis and intracellular processing of three major secretory proteins, albumin, alpha 1-protease inhibitor and alpha 2u-globulin, in cultured rat hepatocytes. The effect of secretion-blocking agents, monensin, a monovalent ionophore, and the microtubule-affecting agents colchicine and taxol was determined. In the control cells, alpha 1-protease inhibitor, a glycoprotein, was first synthesized as an endoglycosidase-H-sensitive form with Mr 51 000, and then processed to two endoglycosidase-H-resistant forms having Mr 51 000 and 56 000, the latter of which was secreted into the medium. Initially synthesized proalbumin was converted with chase to serum-type albumin, while no pro-type precursor was identified for alpha 2u-globulin. In the cells treated with colchicine or taxol, in which secretion was greatly inhibited, the fully processed alpha 1-protease inhibitor and albumin accumulated and were finally secreted into the medium. In the monensin-treated cells, however, most of the newly synthesized alpha 1-protease inhibitor and albumin were not processed to the final mature forms, resulting in accumulation of two 51 000-Mr forms and proalbumin, respectively. Moreover in treated cells, proalbumin and the endoglycosidase-H-resistant alpha 1-protease inhibitor were finally secreted into the medium. Such an effect was not caused by NH4Cl which also inhibited the secretion and is known to exert the similar effect as monensin on the receptor-mediated endocytosis pathway. Based on these results, the use of monensin may prove valuable for more detailed analysis of intracellular processing of various proteins.

Age-dependent regulation of the polymorphic forms of alpha 2u-globulin

Hepatic synthesis of alpha 2u-globulin in the male rat shows a gradual decline and ultimate loss during aging and senescence. Northern blot analysis with a cloned cDNA probe showed that the decrease in alpha 2u-globulin synthesis during aging is associated with a corresponding decrease in the concentration of its hepatic mRNA. By means of two-dimensional gel electrophoresis, alpha 2u-globulin is resolved into a family of proteins. A monoclonal mouse antibody can identify at least five major isoelectric variants of alpha 2u-globulin within the total protein synthesized by rat hepatocytes. These isoelectric variants are also present in the in vitro translation products of hepatic mRNA. An examination of the hepatic synthesis of the isoelectric variants of alpha 2u-globulin during aging showed a differential regulation of the variant forms of this protein. Variant 2 (pI 6.1, the most prominent form) is the first to appear at puberty (40 days). The weakest member of the five major isoelectric forms (variant 4, pI 4.1) is the last to disappear at senescence. Although the overall decline in alpha 2u-globulin synthesis during aging seems to be due to an age-dependent decrease in the androgen responsiveness of hepatocytes, it is postulated that the differential regulation of the isoelectric variants may represent changes at the level of the genes coding for this protein.

Synthesis of alpha 1-microglobulin by guinea-pig liver

Explants from perfused guinea-pig livers were found to release alpha 1-microglobulin into the culture medium. Tritiated leucine in the medium was incorporated into the protein, suggesting a de novo synthesis of alpha 1-microglobulin by the liver tissue. The size of the protein could not be distinguished from that of purified urinary alpha 1-microglobulin when tested with sodium dodecyl sulfate/polyacrylamide gel electrophoresis. After intravenous injections of tritiated leucine into guinea-pigs, the 105 000 X g pellet of homogenized liver rapidly increased its content of radioactive alpha 1-microglobulin, with a maximum after 20 min. 3H-Labelled alpha 1-microglobulin appeared in serum after a lag phase of 20 min, and by comparing the rate of accumulation with albumin, the synthesis of guinea-pig alpha 1-microglobulin could be estimated to 20 micrograms g liver-1 h-1.

Hamster female protein. A divergent acute phase protein in male and female Syrian hamsters

Normal adult male hamsters have low levels (10-20 micrograms) of female protein (FP) in serum which increase approximately fivefold during an acute phase response. In contrast, normal females have 50- to 100-fold higher serum levels and the acute phase reaction consists of a transient decrease in FP (approximately 50%), followed by a return to normal levels even under adverse conditions such as cortisone treatment (which by itself has a depressing effect on FP levels in normal females). The acute phase response was not inherently associated with gender, as the pattern of response could be changed to that of the opposite sex by appropriate hormonal manipulation. That is, castrated or diethylstilbestrol-treated males with high FP levels showed a female-type response whereas testosterone-treated females with low FP levels showed a male-type response. Studies on catabolism of 125I-FP showed a similar rapid half-life (T1/2, 9-16 h) in normal males and females and indicated that the sex difference in serum concentration was due to greater synthesis of FP in females. The divergent acute phase reaction of serum FP was related directly to changes in the FP synthetic rate (increased in males, decreased in females). As an indicator of serious pathology, a decrease of FP to very low levels in females was associated frequently with impending death.

Tissue-specific control of alpha 2u globulin gene expression: constitutive synthesis in the submaxillary gland

Synthesis of alpha 2u globulin, previously thought to occur only in the male rat liver, has now been demonstrated in the submaxillary salivary gland. Unlike liver, submaxillary synthesis of alpha 2u globulin mRNA is constitutive--that is, independent of the endocrine state, age and sex. Liver and submaxillary alpha 2u globulin mRNAs are of similar size, and their 5' ends map to the same region of the gene. Isoelectric focusing of in vitro translation products revealed that submaxillary mRNA encodes a more acidic subset of alpha 2u globulins than does liver. Salivary alpha 2u globulin mRNA manifests 5% nucleotide divergence, encoding 20 amino acid substitutions, which specifies a more acidic polypeptide than its hepatic counterpart. Thus the liver and submaxillary gland synthesize alpha 2u globulin from different sets of genes that are subject to very different developmental and hormonal control.

Thermal trauma-induced changes in the synthesis of rat serum proteins

Infliction of non-lethal scalding was found to cause an increase in the rate of incorporation of 35S-methionine into albumin and globulin fractions of rat serum proteins, the the increase being remarkably higher for alpha- and beta-globulins than for albumin and gamma-globulins The most pronounced enhancement was associated with the 60- and 70-kd constituents of beta-globulins, the 34-, 55- and 136-kd polypeptides of alpha-2-globulins and the 50-, 60-, 125- and 145-kd polypeptides of alpha-1-globulins. The response of serum proteins to the heat shock was similar, though the changes were significantly less pronounced.

Synthesis and immunocytochemical localization of alpha 2u globulin in the duct cells of the rat submaxillary gland

Alpha 2u globulin, a protein of unknown function so far believed to be synthesized exclusively in the male liver under multihormonal control, is now shown to be localized by immunocytochemistry in the granular convoluted tubules of the adult male submaxillary gland. In addition, using Northern blot analysis, we have shown specific alpha 2u globulin mRNA sequences in the RNA extracted from the submaxillary gland. Thus, it is evident that the protein is being synthesized therein. Alpha 2u globulin was also detected in the submaxillary gland duct cells of adult female and immature animals of both sexes, all of which are known not to synthesize alpha 2u globulin in their livers. The present data have established that alpha 2u globulin is synthesized in the rat submaxillary gland and indicate that the control of alpha 2u globulin gene expression in the rat liver and in the submaxillary gland is different.

Multihormonal induction of alpha 2u-globulin in an established rat hepatoma cell line

A subclone of the FU5-5 rat hepatoma cell line has been isolated which is inducible more than several hundred fold for the 20,000 dalton form of the major rat urinary protein alpha 2u-globulin. The basal relative synthetic rate (RSR) in growth medium containing 10% fetal calf serum was less than 2 X 10(-6) of total protein synthesis. Both dexamethasone and insulin were necessary for induction, and yielded a maximum induced RSR of 4-8 X 10(-3). Triiodothyronine (T3), dihydrotestosterone (DHT), rat growth hormone (GH), and estrogen, all of which have been shown to influence the induction of alpha 2u-globulin in the intact rat, were without effect on the cell line. A factor present in fetal calf serum was also necessary for maximum induction, since dexamethasone plus insulin in serum-free medium raised the RSR to only 3 X 10(-5); exogenous T3, GH, and DHT could not substitute for this serum factor. The kinetics of induction by dexamethasone were slow, with a lag of approximately 48 hr followed by a period of increasing RSR for 6-20 days. Removal of dexamethasone from induced cells led to an exponential decline in the RSR (t 1/2 15 hr). The concentrations of dexamethasone and insulin that could yield half maximum induction were 5 X 10(-8)M and 3 X 10(-11)M, respectively. Higher concentrations of insulin, although still in physiological range (10(-9)M), inhibited induction. At yet higher insulin levels, beyond the physiological range, alpha 2u-globulin synthesis returned to maximum values. The lack of DHT, T3, and GH requirement for alpha 2u-globulin induction in this cell line may mean that a regulatory aberrancy has occurred in this transformed cell line, or, alternatively, that these hormones act indirectly in the intact animal. This cell line should prove useful for the study of the molecular events associated with alpha 2u-globulin induction and for genetic approaches to the problem of multihormonal regulation of gene expression.

The role of growth hormone in alpha 2u globulin synthesis: a reexamination

Hypophysectomy of adult male rats abolishes alpha 2u globulin synthesis; synthesis can be fully restored by daily administration of androgen, thyroid hormone, glucocorticoid and growth hormone for 12 days. It has been previously reported that growth hormone is not required to maintain alpha 2u globulin mRNA levels, and that growth hormone functions only translationally. We have reexamined the role of growth hormone in alpha 2u globulin synthesis using a cloned alpha 2u globulin cDNA probe. Measurement of alpha 2u globulin mRNA levels by hybridization and cell-free translation, and of alpha 2u globulin synthesis by pulse-labeling in vivo, demonstrates that growth hormone is required to maintain full, steady state hepatic levels of both alpha 2u globulin and its mRNA. Furthermore, the small amount of hepatic alpha 2u globulin mRNA that accumulates in the absence of growth hormone is efficiently translated in vivo. Thus we now find no evidence for growth-hormone-mediated translational control. We have also found that rats hypophysectomized prepubescently respond to the multihormonal restoration therapy to only 10% of the alpha 2u globulin mRNA levels observed in rats hypophysectomized as adults. This finding suggests that some unidentified pituitary factor(s) is required during puberty to potentiate normal alpha 2u globulin gene expression.

Precursor of rat liver alpha 2u-globulin: partial amino acid sequence determination of its signal peptide

The biosynthesis of alpha 2 u-globulin, the major protein in rat urine, was studied in a cell-free system programmed with messenger RNA isolated from rat liver. Analysis of the primary translation product by SDS-polyacrylamide gel electrophoresis showed a molecular weight of approximatley 22,000 daltons as compared to 20,000 daltons for the mature form. When translation was carried out in the presence of dog pancreas microsomes, alpha 2u-globulin was cotranslationally processed and sequestered in the microsomal lumen. Automated sequencing to mature alpha 2u-globulin and the labeled precursor disclosed the presence of 19 additional amino acids at the amino-terminal end of the primary translation product of the urinary alpha 2u-globulin. The partial amino acid sequence of this extension was determined.