Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.4 (trypsin)
 42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The beta subunit of TSH (TSH-beta) usually cannot be detected (less than 0.2 ng/ml) in the serum of normal individuals, whereas patients with primary hypothyroidism exhibit elevated TSH-beta levels (0.2-9.3 ng/ml), which increase further after the administration of TRH. Two patients were found to have large TSH-beta as the only form of serum TSH-beta immunoactivity. Patient A was a euthyroid woman with a goiter; TSH and alpha subunit levels were normal (1 microU/ml and 0.6 ng/ml, respectively); TSH-beta was elevated (8-24 ng/ml). Patient B was a woman with borderline hypothyroidism, an elevated serum TSH level (19 microunits/ml), a normal serum alpha level (2.4 ng/ml), and an elevated serum TSH-beta level (1.8-3.6 ng/ml). Dilutions of both patients' sera demonstrated nonparallelism of their serum TSH-beta to standard TSH-beta. The elevated serum TSH-beta levels did not increase after TRH, although TSH and alpha subunit increased appropriately. After the administration of dexamethasone or T4 to patient B, serum TSH-beta did not decrease, although TSH and alpha decreased. Gel chromatography and rechromatography of the patients' sera on a Sephadex G-100 column showed elution of all TSH-beta immunoactivity in or near the void volume (Vo; greater than 150,000 mol wt), whereas sera of hypothyroid patients demonstrated less than 7% of TSH-beta immunoactivity in the Vo. By chromatography on a Sephadex G-200 column, the TSH-beta immunoactivity had a 160,000 mol wt in patient A and 200,000 mol wt in patient B. Incubation of labeled or unlabeled TSH-beta with serum or gamma-globulin fractions from both patients resulted in no significant increase in the binding of TSH-beta to serum components, as determined by both gel chromatography and precipitation with antihuman gamma-globulin. Large TSH-beta was stable after incubation with 6 M guanidine. Ribonuclease failed to affect the large TSH-beta. Inter-chain disulfide bonding was not demonstrated in large TSH-beta after treatment with three different reducing agents (mercaptoethanol, sodium sulfite, and dithioerythritol). Treatment with trypsin did not convert the large TSH-beta immunoactivity to standard TSH-beta. These experiments demonstrated that the large TSH-beta immunoactivity was not caused by binding of TSH-beta to an immunoglobulin or other serum protein or by aggregation of TSH-beta molecules. The significance of these apparently covalently bonded large forms of TSH-beta immunoactivity is not yet known; the presence of small amounts of a large molecular weight form in the serum of hypothyroid patients and normal pituitary extracts raises the possibility that they may be components of normal TSH biosynthesis or represent posttranslational modifications.
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PMID:Large molecular weight TSH-beta: the sole immunoactive form of TSH-beta in certain human sera. 9 22

The novel peptide, pyroglutamylglutamylprolineamide (pGlu-Glu-ProNH2), has recently been isolated and characterized from the rabbit prostate complex. The tripeptide is present in high concentrations in the prostate complex and semen, together with a 40-50 residue polypeptide which contains a TRH-immunoreactive fragment at its C-terminus. The present study investigates changes in the levels of these TRH-related peptides in rabbits aged 11 weeks, 4 months, 7 months, 13 months and 2 years. For each age group the peptides were extracted from the prostate complex, separated by gel exclusion chromatography, and located by TRH radioimmunoassay. The TRH-immunoreactive fragment was released from the polypeptide by trypsin digestion prior to radioimmunoassay. Very low concentrations of TRH-immunoreactive peptides were present at 11 weeks of age, but considerable levels of both peptides were found in all the other age groups. Anion exchange chromatography, under conditions which resolve TRH and pGlu-Glu-ProNH2, showed that the majority of the low molecular weight TRH immunoreactivity co-eluted with synthetic pGlu-Glu-ProNH2. The remaining TRH immunoreactivity, which had not bound to the anion resin, also failed to bind to a cation exchange column at pH 2.0, indicating that it was not authentic TRH. Dissection of the prostate complex into its four constitutive regions (vesicular gland, coagulating gland, prostate and bulbourethral gland) followed by extraction, chromatography and TRH radioimmunoassay of each region showed that the TRH-related peptides were located in the prostate.
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PMID:TRH-related peptides in the rabbit prostate complex during development. 173 40

There is extensive evidence that the posterior pituitary (PP) participates in the regulation of PRL secretion. We recently reported that a putative PRL-releasing factor is localized, and possibly produced, in the intermediate lobe of the PP. The aim of the present investigation was to determine whether cultured PP cells affect anterior pituitary (AP) function in terms of cell content and cumulative release of PRL. Anterior and posterior pituitaries from adult male rats were dispersed with trypsin and cultured either alone or together for 4 and 8 days in serum-free medium. The concentrations of PRL, GH, and LH in cell extracts and culture media were measured by RIA. Coculturing of AP and PP cells at different plating densities resulted in a 2-fold rise in PRL cell content after 4 days. The cumulative release of PRL in the cocultures was significantly increased only after 8 days. LH and GH were affected slightly, or not at all. Medium conditioned by PP cells mimicked the effects of coculture on the cumulative release of PRL, but not on the cell content. Short-term incubation with TRH induced a much larger release of PRL from AP + PP cocultures than from AP cells cultured alone. In conclusion, these data suggest that 1) PP cells stimulate the production and release of PRL in a hormone-specific manner, and 2) coculturing of AP + PP cells augments the responsiveness of lactotrophs to secretagogues such as TRH. We propose that at least two factors, one of which might be PRL-releasing factor, are involved in these effects.
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PMID:Coculture of anterior and posterior pituitary cells: selective stimulation of lactotrophs. 190 68

It is well established that the suckling stimulus sensitizes or primes the anterior pituitary to PRL-releasing stimuli. It is also recognized that PRL-secreting cells from a given animal are not all alike but instead exhibit a considerable degree of functional heterogeneity. The goal of the present study was to determine whether the suckling-induced priming phenomenon is manifest at the cellular level by shifts in the relative abundance of various mammotrope subpopulations. This was accomplished by using reverse hemolytic plaque assays to evaluate the secretory characteristics of individual PRL secretors derived from lactating rats either before or after the transient application of a suckling stimulus. Groups of day 10 lactating rats separated from their litters for 4 h were either killed immediately or were reunited briefly (10 min) with their pups before death. Adenohypophyseal cells obtained after trypsin dispersion were then subjected to plaque assays for PRL. Mammotropes derived from suckled rats were, on average, considerably more responsive to the stimulatory actions of TRH and angiotensin II and less susceptible to inhibition by dopamine. Mammotropes from nonsuckled rats exhibited a bimodal frequency distribution in which plaques from the second mode were roughly 6-8 times larger (released considerably more PRL) than those from the first. Superimposition of suckling (or in vitro treatment with dopamine) caused the second mode to disappear. Suckling also enhanced greatly the fraction of PRL cells that shifted from the first to the second mode (i.e. released more hormone) after treatment with TRH or angiotensin II. Taken together, our results demonstrate that the suckling-induced sensitization of pituitary tissue to PRL-releasing stimuli is manifest at the cellular level as proportional shifts toward those cells most responsive to stimulatory secretagogues and away from those most susceptible to inhibition by dopamine.
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PMID:Suckling increases the proportions of mammotropes responsive to various prolactin-releasing stimuli. 222 1

TRH-related peptides were extracted from the hypothalamus and prostate gland of the rabbit. The peptides were fractionated by gel exclusion chromatography and located by trypsin digestion and radioimmunoassay with antibodies to TRH amide and TRH-Gly Lys. In the hypothalamus TRH-related peptides containing approximately 16 and 30 residues were observed: in these peptides the extensions to the TRH sequence were exclusively in the C-terminal direction. In addition, the three-residue form of TRH was also present. In the prostate complex, the predominant TRH-related peptide contained approximately 50 residues and the extension to the TRH tripeptide was on the N-terminal side; a three-residue form of immunoreactive TRH was also demonstrated. The same pattern of TRH-related peptides was shown to be present in rabbit semen. The results reveal the existence of a novel TRH-related polypeptide in the prostate and semen which does not occur in the hypothalamus. This peptide appears to undergo secretion.
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PMID:Thyrotrophin-releasing hormone-related polypeptides in rabbit prostate and semen are different from those in rabbit hypothalamus. 249 62

The extent to which pituitary explants secrete GH requires clarification. In the present study GH release from ectopic pituitary tissue was assessed using the reverse hemolytic plaque assay. In addition, the effects of this tissue on eutopic GH and PRL release were simultaneously investigated. Anterior pituitary glands from adult female donor rats were grafted beneath the kidney capsule of adult male hosts. Four weeks later, this ectopic pituitary tissue and the eutopic pituitary glands of the host animals were removed, dispersed with trypsin, and subsequently assayed for GH and PRL release. Contrary to expectations, we found that 37% of the ectopic pituitary cells were GH secretors. Furthermore, these GH cells remained highly responsive to GRF (10(-7) M), which evoked a 7-fold increase (P less than 0.05) in mean GH plaque area. By comparison, only 28% of these ectopic cells secreted PRL, and this release was not consistently augmented by exposure to TRH (10(-7) M). In the second half of this study we found that the presence of ectopic pituitary tissue severely compromised the secretory capacity of the eutopic pituitary cells. More specifically, GH-releasing factor induced a 3-fold increase in GH secretion from the eutopic pituitary cells of sham-operated control animals, but it enhanced the release from cells of host animals by only 2-fold. Moreover, the response to TRH by the eutopic PRL cells from explant-bearing animals was curtailed to such an extent that it was not significantly greater (P greater than 0.05) than basal release in that group. We conclude that the potential of pituitary explant cells to release GH is far greater than previously believed and that this ectopic hormone production may inhibit hormone release from the eutopic pituitary cells.
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PMID:Pituitaries transplanted under the renal capsule contain functional growth hormone (GH) secretors and suppress GH and prolactin release from individual eutopic pituitary cells. 251 Sep 89

Plasma PRL levels in male rats are highest during the peripubertal period. We previously reported that the posterior pituitary (PP) contains a potent PRL-releasing factor (PRF), a trypsin-insensitive small peptide which is distinct from known PRL secretagogues. The objectives were to determine the ontogeny of PRF activity in the PP as well as age-related alterations in anterior pituitary responsiveness to PRF. We also explored if the PP contains a nondopaminergic PRL-inhibiting factor (PIF). PRF/PIF activities were assessed by the ability of PP extracts to alter PRL release from cultured anterior pituitary cells. The PP were extracted with perchloric acid and lyophilized, thus eliminating endogenous dopamine. PRF activity in PP extracts from 10- and 20 day-old (d) rats was very low, increased gradually in 30d and 40d rats, and remained unchanged in adult (90d) rats. In a second experiment, age-related changes in anterior pituitary responsiveness to PP extracts from adult rats and to TRH were determined. The responsiveness of anterior pituitary cells from 10d rats to PRF was low, increased dramatically in cells from 20d rats, and was reduced in cells from 30d and adult rats. The responsiveness to TRH was highest in cells from 10d rats. In a third experiment, anterior pituitary responsiveness to age-matched PP extracts was assessed. Only PIF activity was observed when PP extracts from 10d rats were incubated with anterior pituitary cells from 10d rats. In contrast, PP extracts from 20d, 30d and adult rats exhibited only PRF activity when incubated with age-matched cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ontogeny of prolactin releasing and inhibiting activities in the posterior pituitary of male rats. 251 64

We have evaluated the role of cellular Ca2+ transport associated with stimulus-secretion coupling in prolactin (PRL) producing rat pituitary adenoma cells (GH3 cells). The action of different substances, known to modify PRL secretion, on release of 45Ca2+ from preloaded cells were examined. Surface-bound 45Ca2+ was removed by pretreatment with trypsin in EDTA buffer. During the first 6 min, basal efflux of 45Ca2+ occurred at a constant rate (0.24 min-1) at 37 degrees C. Addition of TRH (5 X 10(-7) M) resulted in an immediate enhancement of 45Ca2+ release representing about 20% of the remaining cellular 45Ca2+. In the same experiments PRL secretion increased by 45%. The EDTA in the external medium reduced the basal rate of 45Ca2+ release by 60%, but did not apparently affect the TRH-stimulated release. Somatostatin (10(-6) M) and verapamil (5 X 10(-5) M) inhibited both basal and TRH-stimulated PRL secretion, whereas high extracellular concentration of K+ (5 X 10(-2) M) had a stimulatory effect. However, neither of these treatments changed cellular 45Ca2+ release. Interference with energy-dependent Ca2+ transport by using metabolic inhibitors (iodoacetate, 6 X 10(-3) M; and antimycin, 2 X 10(-6) M) or by replacing Na+ in the medium by choline or by lowering the incubation temperature from 37 to 25 degrees C, had no effect on TRH-stimulated 45Ca2+ release although basal and TRH-stimulated PRL secretion were reduced. Thus, TRH apparently releases 45Ca2+ from calcium binding sites in the cell membrane.
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PMID:On the functional relationship between 45Ca2+ release and prolactin secretion in cultured rat pituitary tumour (GH3) cells. 287 12

Characteristics of cyclo(His-Pro) binding sites in the rat liver were studied using 3H-labeled cyclo(His-Pro). Scatchard analysis suggested that the rat liver membrane had a single binding site with an apparent dissociation constant (Kd) of 7 X 10(-8) M. Pretreatment of membrane preparations with soybean trypsin inhibitor increased cyclo(His-Pro) binding, and the binding activity was sensitive to trypsin and phospholipase A digestion, suggesting that protein and phospholipid moieties are essential for cyclo(His-Pro) binding. Thiol reagents reduced binding activity, suggesting that the thiol group might be an important constituent of the cyclo(His-Pro) binding site. Cross-reactivities of TRH, TRH analogues, L-His and L-Pro were very low (0.2-9%). These findings indicate that specific binding sites for cyclo(His-Pro) in the rat liver have similar properties to the receptors for other polypeptides.
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PMID:Properties of histidyl-proline diketopiperazine [cyclo(His-Pro)] binding sites in rat liver. 300 20

In this study we evaluated the quantitative influence of GRF and TRH on the rate of hormone secretion from single cells in cultures of male pituitaries. To accomplish this, we dispersed pituitaries from male rats with trypsin and cultured them for 24 or 48 h. Reverse hemolytic plaque assays for GH and prolactin were then performed on retrypsinized cultures to identify individual cells that secreted these hormones. Mammotropes and somatotropes were found to comprise 31.4 +/- 1.8 and 32.2 +/- 0.9% (mean +/- SE, n = 3 experiments), respectively, of all cells in 24-hour cultures. Immunocytochemical staining of different batches of cells from the same dispersions corroborated the proportions of these two cell types. Differences in the rate of basal hormone secretion were observed within each of these cell populations as evidenced by the gradual appearance of prolactin and GH plaques over a 4-hour period when incubations were conducted in the absence of stimulatory secretagogues. Addition of increasing concentrations of GRF (1 X 10(-10) -1 X 10(-7) M) or TRH (1 X 10(-9) -1 X 10(-6) M) to these incubations resulted in dose-related increases in the rate of GH and prolactin plaque formation, respectively. Maximal plaque development by somatotropes could be induced within 30 min of administering large doses of GRF, indicating that most, if not all somatotropes are responsive to this secretagogue. In contrast, approximately one third of all mammotropes could not be stimulated to form plaques acutely when subjected to similar treatment with TRH. This observation suggests that mammotropes are heterogeneous with respect to TRH responsiveness.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Analysis by plaque assays of GH and prolactin release from individual cells in cultures of male pituitaries. Evidence for functional heterogeneity within rat mammotrope and somatotrope populations. 307 93


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