Open field behaviour in rats: role of metabotropic glutamate receptors

Previous studies have shown that spatial memory retention is affected by the metabotropic glutamate receptor (mGluR) influencing agents (R,S)-alpha-methyl-4-carboxyphenylglycine (MCPG) and trans-azetidine-2,4-dicarboxylic acid (tADA). In the present investigation we examined whether the mGluR antagonist MCPG (20 mM and 200 mM/5 microliters, respectively) and the agonist tADA (20 mM/5 microliters) have other behavioural effects using the open field test on two successive days. Only minor effects of MCPG (decrease of crossings during the 1st min on day 1) and tADA (increase of rearings on both days) were found. These results suggest that memory influencing doses of MCPG and tADA have no or only little behavioural effects in the open field situation.

Metabotropic glutamate receptor agonist trans-azetidine-2,4-dicarboxylic acid facilitates maintenance of LTP in the dentate gyrus in vivo

We examined the role of metabotropic glutamate receptors by studying the effect of intracerebroventricular infusion of the putative mGluR agonist trans-azetidine-2,4-dicarboxylic acid (tADA) on long-term potentiation (LTP) in the dentate gyrus of freely moving rats. Weak tetanization caused a decremental potentiation which returned to baseline levels within 2 hr. Injections of tADA (20 mM/5 microliters) 30 min prior to weak tetanization prolonged LTP of the field EPSP for at least 24 hr.

Ceramide quantitation: evaluation of a mixed micellar assay using E. coli diacylglycerol kinase

The phosphorylation of ceramide solubilized in octylglucoside/phosphatidylglycerol mixed micelles by E. coli diacylglycerol kinase was evaluated. Ceramide containing non-hydroxy fatty acids appeared to be phosphorylated quantitatively over a broad range from 25 to 2000 pmoles. If a 2-hydroxy fatty acid was present in the ceramide molecule, phosphorylation was not quantitative. When applied to cellular lipid extracts, TLC of the phosphorylated products is needed to separate ceramide-phosphates from the other labelled compounds (i.e. phosphatidate and lysophosphatidate) and revealed the presence of ceramides containing long and very long chain fatty acids. The mass levels of these ceramides in different cultured cells varied between 0.2 to 0.6 mol% (normalized to phospholipids). Changes in these levels were observed under different stress conditions such as heat treatment or addition of DMSO or detergents to the cell cultures.

[Studies of novel 1,4-dihydropyridine Ca antagonist CS-905. I. Measurement of partition coefficient (log P) by high performance liquid chromatography (HPLC)]

A new 1,4-dihydropyridine derivative, CS-905, currently under development as a Ca antagonist, showed a gradual onset and long duration in its antihypertensive effect upon single oral administration. The partition coefficient for CS-905 was measured along with 11 known dihydropyridine Ca antagonists by the HPLC method to clarify its mode of action. The log PHPLC for CS-905 was, 5.18, almost the same as that of manidipine and this value is the highest among the measured drugs. Its pharmacokinetic profile in SHR was also discussed.

Profiling of trans-azetidine-2,4-dicarboxylic acid at the human metabotropic glutamate receptors mGlu1b, -2, -4a and -5a

We have tested the two enantiomers of trans-azetidine-2,4-dicarboxylic acid, (2S,4S)-azetidine-2,4-dicarboxylic acid ((2S,4S)-ADA) and (2R,4R)-azetidine-2,4-dicarboxylic acid ((2R,4R)-ADA) for activity at the human metabotropic glutamate receptors mGlu1b, mGlu2, mGlu4a and mGlu5a expressed in mammalian cells. In Chinese hamster ovary (CHO) cells expressing human mGlu2 receptors, 500 microM (2S,4S)-ADA inhibited forskolin-stimulated cAMP accumulation by 33 +/- 3% while 100 microM (1S,3R)-1-Aminocyclopentane-1,3-dicarboxylic acid induced an inhibition by 66 +/- 5%. The (2R,4R)-ADA enantiomer was inactive at human mGlu2 receptors. In CHO cells expressing human mGlu4a receptors, 10 microM L-AP4 inhibited forskolin-stimulated cAMP levels by 37 +/- 4% whereas both ADA enantiomers of trans-azetidine-2,4-dicarboxylic acid (500 microM) had no such effect. In CHO cells expressing human mGlu1b receptors and L cells expressing human mGlu5a receptors, both enantiomers, applied at 500 microM or 1 mM, were ineffective in stimulating inositolmonophosphate accumulation and did not affect quisqualate-stimulated inositolmonophosphate accumulation. We conclude that (2S,4S)-azetidine-2,4-dicarboxylic acid is a weak human mGlu2 receptor agonist and that (2R,4R)-azetidine-2,4-dicarboxylic acid is inactive at human mGlu2 receptors. Trans-azetidine-2,4-dicarboxylic acid has no significant agonistic effect on human mGlu4a receptors and neither agonistic nor antagonistic effects on human mGlu1b and mGlu5a receptors.

Ascorbate modulation of chondrocyte gene expression is independent of its role in collagen secretion

During development and fracture repair, endochondral bone formation is preceded by an orderly process of chondrocyte hypertrophy and cartilage matrix calcification. Analysis of calcifying versus noncalcifying cartilage has identified several differences in matrix proteins; among these are appearance of a novel collagen, type X, and decreased synthesis of type II collagen, the major component of cartilage matrix. In addition, there is a marked increase in alkaline phosphatase, an enzyme expressed at high levels in all mineralizing tissues. Cultured chondrocytes can be induced to undergo these changes in gene expression and to produce calcified matrix by exposure to ascorbic acid. The mechanism by which ascorbate produces these changes has been examined by analyzing the effect of the vitamin on prehypertrophic chick embryo sternal chondrocytes. Nuclear run-on assays demonstrated that ascorbate alters mRNA levels in chondrocytes by changing the transcription rates. The fact that marked changes in mRNA levels require 1-2 days of ascorbate exposure suggested that the effect of this vitamin on gene transcription may be secondary to other, earlier ascorbate-induced effects. Since cells cultured with ascorbate produce a collagen-enriched matrix, we examined the hypothesis that transcriptional changes were secondary to altered cell-matrix interactions. Chondrocytes were cultured after attachment to tissue culture plastic, in suspension, or on plates coated with collagen type I. Comparison of alkaline phosphatase activity with and without ascorbate addition demonstrated that under all of these conditions, induction of enzyme was dependent on the presence of ascorbate. When plates containing ascorbate-conditioned chondrocyte matrix were used as substrate for naive chondrocytes, the cells continued to require ascorbate for induction of high levels of alkaline phosphatase and type X collagen mRNA. Addition of the hydroxylation inhibitor, 3,4-dehydroproline, caused marked inhibition of collagen secretion as well as accumulation of underhydroxylated collagens within the cells. However, even in the presence of this inhibitor ascorbate was effective in inducing elevated alkaline phosphatase and type X collagen. These results indicate that the ability of ascorbate to induce chondrocyte hypertrophy does not depend on production of a collagen-rich matrix.

Effects of CS-905, a novel dihydropyridine calcium channel blocker, on arterial pressure, renal excretory function, and inner medullary blood flow in the rat

CS-905 is a dihydropyridine calcium channel antagonist which stands out for its prolonged hypotensive effect, and which is currently under investigation for the treatment of hypertension. The aim of the current series of studies was to investigate the effects of CS-905 on renal function in relation to its effects on arterial pressure. In anesthetized spontaneously hypertensive rats (SHR), intravenous bolus injection of CS-905 reduced mean arterial pressure (MAP) in a dose-dependent fashion. In parallel, there was a dose-related increase in urine flow (V), sodium excretion (UNaV), renal plasma flow (RPF), and glomerular filtration rate (GFR). In chronically cannulated unanesthetized SHR, single-dose CS-905 by gavage produced a sustained reduction in MAP, a significant increase in V and UNaV, no effect on RPF, and an increase in GFR. Continuous intrarenal infusion of CS-905 in anesthetized normotensive Munich Wistar rats at doses that did not affect MAP caused a marked diuresis and natriuresis, without affecting RPF or GFR. To determine whether the diuretic and natriuretic effects of CS-905 were mediated by changes in inner medullary blood flow, the effect of CS-905 on vasa recta blood flow (Qvr) was studied by fluorescent videomicroscopy in anesthetized normotensive Munich Wistar rats during continuous intrarenal infusion. At low infusion rates, CS-905 was diuretic and natriuretic while increasing Qvr. With a high infusion rate, although the diuretic and natriuretic effects of CS-905 were maximal, Qvr decreased. These findings suggest that the diuretic and natriuretic effects of CS-905 are dissociated from and cannot be accounted for by changes in RPF, GRF, or Qvr, and are most likely secondary to a direct action of CS-905 on renal tubule handling of sodium and water.

L-ascorbic acid 2-phosphate promotes osteoblastic differentiation of MC3T3-E1 mediated by accumulation of type I collagen

L-Ascorbic acid 2-phosphate (Asc-P: a stable ascorbic acid derivative) markedly stimulated synthesis of marker proteins for osteoblastic differentiation such as alkaline phosphatase and osteocalcin in a murine osteoblastic cell line, MC3T3-E1, suggesting that Asc-P could promote osteoblastic differentiation. L-Azetidine 2-carboxylate (AzC) diminished the stimulatory effects of Asc-P on the synthesis of alkaline phosphatase and osteocalcin due to its inhibitory effects on mature collagen secretion. Growing cells on the dishes coated with type I collagen resulted in an increased expression of osteoblastic phenotypes even in the presence of AzC. Coating with fibronectin, however, failed to promote differentiation. These results suggest that the promotion of cell differentiation caused by Asc-P is mediated by the accumulation of mature collagen.

Genes encoding osmoregulatory proline/glycine betaine transporters and the proline catabolic system are present and expressed in diverse clinical Escherichia coli isolates

Sixty-three clinical isolates identified as Escherichia coli, 30 from the human urinary tract and 33 derived from other human origins, were screened for proline/glycine betaine transporters similar to those that support proline catabolism and proline- or glycine betaine-based osmoregulation in E. coli K-12. Both molecular (DNA- and protein-based) analyses and physiological tests were performed. All tests were calibrated with E. coli K-12 derivatives from which genetic loci putP (encoding a proline transporter required for proline catabolism), proP, and (or) proU (loci encoding osmoregulatory proline/glycine betaine transporters) had been deleted. All clinical isolates showed both enhanced sensitivity to the toxic proline analogue azetidine-2-carboxylate on media of high osmolality and growth stimulation by glycine betaine in an artificial urine preparation of high osmolality. DNA sequences similar to the putP, proP, and proU loci of E. coli K-12 were detected by DNA amplification and (or) hybridization and protein specifically reactive with antibodies raised against the ProX protein of E. coli K-12 (a ProU constituent) was detected by western blotting in over 95% of the isolates. Two anomalous isolates were reclassified as non-E. coli on the basis of the API 20E series of tests. A protein immunochemically cross-reactive with the ProP protein of E. coli K-12 was also expressed by the clinical isolates. Since all three transporters were ubiquitous, no particular correlation between clinical origin and PutP, ProP, or ProU activity was observed. These data suggest that the transporters encoded in loci putP, proP, and proU perform housekeeping functions essential for the survival of E. coli cells in diverse habitats.

Fibroblast inhibition does not promote normal lung repair after hyperoxia

Severe alveolar epithelial injury disrupts the normal epithelial cell-fibroblast relationship, leading to abnormal repair and the uncontrolled growth of fibroblasts. It is postulated that selective inhibition of fibroblasts growth after injury may allow epithelial regeneration to occur, reestablish fibroblast control, and reduce fibrosis. This hypothesis was studied using organ cultures after lung injury was induced in vivo by exposing mice to 90% oxygen for 6 days to produce necrosis of Type 1 epithelium. When explants of this lung tissue were cultured, proliferation of cuboidal epithelial cells was reduced, whereas fibroblast growth and hydroxyproline (HYP) levels were significantly higher than in controls. In attempts to inhibit fibrosis, explants were also cultured in the presence of a proline analog, L-azetidine carboxylic acid (LACA). At concentrations that reduced fibroblast proliferation, epithelial repair was also inhibited. The explants appeared fibrotic, and reduced HYP/DNA was due to lower DNA synthesis. Using pure cell cultures, LACA reduced fibroblast but not epithelial growth, and also abolished the usual increase in epithelial cell proliferation that control cells show when exposed to fibroblast supernatants. These results provide further evidence of interdependence between epithelial cells and fibroblasts such that agents that inhibit fibroblast growth after lung injury either directly or indirectly retard regeneration of the overlying epithelium, and so fail to produce normal repair.

Effects of dihydropyridine Ca blockers on the renal function in nephrotic spontaneously hypertensive rat (SHR)

An animal model having both hypertension and reduced renal function was produced by intraperitoneal injection of puromycin aminonucleoside (PAN) in spontaneously hypertensive rat (SHR). Using this model, two different dihydropyridine Ca blockers, CS-905 and nicardipine, were compared with regard to the relationship between hypotensive effects and changes in renal function in a conscious state. A single oral administration of CS-905 or nicardipine at doses of 3 or 10 mg/kg produced a dose-dependent decrease in blood pressure and an increase in heart rate. Glomerular filtration rate (GFR) was decreased only at 10 mg/kg. However, there was a substantial difference between the two drugs with respect to the relationship between blood pressure and GFR. The decrease of GFR by nicardipine was observed when blood pressure was at the lowest level, while GFR decreased by CS-905 returned to the initial level when blood pressure reached a nadir. Percent decrease of GFR by CS-905 was significantly less than that by nicardipine although both agents produced almost the same degree of peak hypotension. These results suggest the decrease in GFR by Ca blockers depends not only on the degree of hypotension but other factors as well, such as the rate of blood pressure lowering. Despite the hypotension, both agents produced a marked natriuresis. Since the natriuresis was not accompanied by an increase in GFR, it was assumed that the natriuretic effect of Ca blockers stemmed from their tubular effects rather than glomerular ones.

Chemotactic methyltransferase promotes adaptation to repellents in Bacillus subtilis

Bacillus subtilis cheRB, which encodes the chemotactic methyltransferase, has been cloned and sequenced. CheRB is a polypeptide of 256 amino acids, with a predicted molecular mass of 28 kDa. A comparison of the predicted amino acid sequence of B. subtilis CheRB with that of Escherichia coli CheRE demonstrates that the two enzymes share 31% amino acid identity. The homology was functional in that the expression of cheBB in an E. coli cheRE null mutant made the bacteria Che+. In contrast to cheRE null mutants which show a strong smooth swimming bias, cheRB null mutants were predominantly tumbly. They respond to the addition and subsequent removal of attractant. They also respond to the addition of repellent but do not adapt; they resume prestimulus bias on removal of repellent. Tethering analysis of a culture of a cheRB null mutant revealed two distinct subpopulations, each demonstrating unique behaviors. One showed a strong clockwise flagellar rotation bias, whereas the other was more random. The latter phenotype may be due to a deficiency of CheB and may reflect an interaction of CheB and CheR. Measurements of CheB activity in the cheR null mutant showed them to be only 20% of wild type levels. We conclude from this work that CheRB functions to promote adaptation to repellent stimuli in B. subtilis, whereas CheRE functions to promote adaptation to attractant stimuli in E. coli.

Effect of novel compound, 1-methyl-1-piperidino methane sulfonate (MPMS), on the osmoprotectant activity of glycine betaine, choline and L-proline in Escherichia coli

A novel compound, 1-methyl-1-piperidino methane sulfonate (MPMS), was found to block the osmoprotectant activity of choline and L-proline, but not glycine betaine in Escherichia coli. MPMS was more active against salt-sensitive than salt-resistant strains, but had no effect on the salt tolerance of a mutant which was unable to transport choline, glycine betaine and proline. Growth of E. coli in NaCl was inhibited by MPMS and restored by glycine betaine, but not by choline or L-proline. Uptake of radiolabeled glycine betaine, choline or L-proline by cells grown at high osmolarity was not inhibited when MPMS and the radioactive substrates were added simultaneously. Preincubation for 5 min with MPMS reduced the uptake of choline and L-proline, but not glycine betaine. Similar incubation with MPMS had no effect on the uptake of radiolabeled glucose or succinate. The toxicity of MPMS was much lower than that of the L-proline analogues L-azetidine-2-carboxylic acid and 3,4-dehydro-DL-proline. The exact mechanism by which MPMS exerts its effect is not entirely clear. MPMS or a metabolite may interfere with the activity of several independent permeases involved in the uptake of osmoprotective compounds, or the conversion of choline to glycine betaine, or effect the expression of some of the osmoregulatory genes.

Purification and identification of an angiotensin I-converting enzyme inhibitor from soy sauce

The inhibitory activity of an angiotensin I-converting enzyme (ACE) detected in soy sauce was fractionated into two major fractions of high molecular weight (Hw) and low molecular weight (Lw) by gel filtration chromatography on Bio-gel P-2 after treating with ethanol. The Hw fraction reduced the blood pressure in hypertensive rats after orally administering, while the Lw fraction did not. The ACE inhibitor in the Hw fraction was further purified by Dowex 50W ion-exchange chromatography and four subsequent steps of HPLC. On the basis of the SIMS-mass spectrum, NMR spectrum and other characteristics, the purified ACE inhibitor was identified as nicotianamine (N-[N-(3-amino-3-carboxypropyl)-3-amino-3-carboxypropyl]azetidine-2- carboxylic acid). The IC50 value for this ACE was 0.26 microM.

Trans-azetidine-2,4-dicarboxylic acid activates neuronal metabotropic receptors

The expression of metabotropic glutamate receptors (mGluRs) in primary cultures of cerebellar granule neurones can be: (i) modulated by the degree of depolarization during the culture period, rendering neurones differently sensitive to agonist-stimulated inositol phosphate (IP) hydrolysis; (ii) down-regulated by specific mGluR agonists. In this culture the new rigid glutamate analogue, (+/-)-trans-azetidine-2,4-dicarboxylic acid (t-ADA) and the known mGluR agonist 1S,3R-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD) stimulated IP formation in line with the depolarization-modified expression of mGluR1. However, the two compounds caused different patterns of mGluR down-regulation. The effects of t-ADA and 1S,3R-ACPD were also tested on transformed human embryonic kidney 293 cells transfected with mGluR1. Only 1S,3R-ACPD, but not t-ADA, stimulated IP hydrolysis, suggesting that t-ADA acts on a subtype of metabotropic receptors different from mGluR1. Hence, t-ADA might prove useful in differentiating the function of various mGluR subtypes.

Synthesis and biological activities of angiotensin II, Sarilesin, and Sarmesin analogues containing Aze or Pip at position 7

Analogues of [Sar1]angiotensin II, Sarilesin (type I antagonist), and Sarmesin (type II antagonist) with L-azetidine-2-carboxylic acid (Aze) and L-pipecolic acid (Pip) at position 7 have been prepared by the solid-phase method, purified by reverse-phase HPLC, and bioassayed in the rat uterus. Analogues of the superagonist [Sar1]ANGII with Aze or Pip at position 7 and sarcosine (Sar) or aminoisobutyric acid (Aib) at position 1 had high intrinsic activity in the rat isolated uterus assay (34-184%). Analogues of Sarilesin ([Sar1,Ile8]ANGII) with Aze or Pip at position 7 and Sar or Aib at position 1 retained high antagonist activity (pA2 = 7.1-8.3). Analogues of Sarmesin ([Sar1,Tyr-(OMe)4]ANGII) with Aze and Pip at position 7 had pA2 values of 7.4 and 6.5, respectively. [Aze7]-ANGII and [Pip7]ANGII had low activities (12% and 1%, respectively), and deletion of Sar at position 1 of Sarmesin analogues abolished binding (or affinity) as judged from pA2 values. Nuclear Overhauser effect (NOE) spectroscopy studies of [Sar1,Aze7]ANGII in DMSO-d6 have indicated a clustering of the three aromatic rings (Tyr, His, Phe) and proximity of Sar C alpha and Arg C delta protons to the Tyr/Phe ring protons. These data emphasize that replacement of Pro with the lower and higher homologs Aze and Pip does not greatly alter the structural requirements necessary for expression of agonist or antagonist activity, when sarcosine occupies position 1, but not when Asp occupies position 1, suggesting that there is an intimate relationship between the N-terminal and penultimate residues of the molecule in the biologically active conformation of the molecule.

Active transport of L-proline in the protozoan parasite Trypanosoma brucei brucei

The characteristics of L-proline transport in the procyclic form of Trypanosoma brucei were studied by using L-[14C]proline and a quick separation technique by centrifugation through an oil mixture. L-Proline uptake displayed typical Michaelis-Menten kinetics, with a Km of 19 microM and a maximum transport velocity of 17 nmol/min per 10(8) cells at 27 degrees C. The maximum concentration gradient factor obtained after 1 min of incubation was 270-fold in 0.02 mM proline. Cells permeabilized with 80 microM digitonin were still able to accumulate 14C label, but to a lower extent. The temperature-dependence of proline uptake gave an apparent activation energy of 74.9 kJ.mol-1. In competition studies with a 10-fold excess of structural analogues, L-alanine, L-cysteine and L-azetidine-2-carboxylate were found to inhibit L-proline uptake. Variation of pH or addition of the protonophore carbonyl cyanide m-chlorophenylhydrazone ('CCCP') did not affect proline transport, showing that it is not driven by a protonmotive force. The absence of Na+, with or without monensin, did not affect proline transport. The absence of K+ and the addition of the Na+,K(+)-ATPase inhibitor ouabain had no significant effect on proline uptake activity. The thiol-modifying reagent iodoacetate (10 mM) decreased proline uptake by half. KCN (1 mM) inhibited proline uptake to a lesser extent, and the degree of inhibition was proportional to the intracellular ATP concentration. Preliminary experiments on proline transport in plasma-membrane vesicles of the cells, using a filtration technique, showed an uptake of proline (0.67 nmol/mg of protein) by the vesicles, but only in the presence of intravesicular ATP. The results thus obtained suggest that the proline carrier system in T. brucei is ATP-driven and independent of Na+, K+ or H+ co-transport.

The proline analog L-azetidine-2-carboxylic acid modifies the neovascularization pattern by inhibiting branching or tortuosity and stimulating spatial expansion in the rat mesentery

The L-proline analog L-azetidine-2-carboxylic acid, LACA, systemically inhibited autogenous mast-cell-mediated angiogenesis in normal rats. LACA was injected s.c. at a dose of 100 mg/kg/day and the angiogenic response was assessed in the mesenteric windows. Angiogenesis was induced by the i.p. injection of a highly-selective activator of the mast cells in situ. At these concentrations, LACA appeared to be non-toxic since it affected neither the physiologic body-weight gain nor the mast-cell secretory capacity in the test tissue. The LACA-treatment markedly reduced (p < or = 0.01) microvascular formation in terms of the number of vessels per unit length of tissue (No/mm) but, at the same time, tended to stimulate the spatial expansion of the newly-formed vasculature in terms of the vascularized area (VA). Since No/mm is a measure that reflects the degree of branching, the degree of tortuosity and VA, the findings suggest that LACA inhibited branching/tortuosity and simultaneously stimulated the spatial expansion of the new microvasculature. The difference in response to LACA in terms of No/mm and VA was highly statistically-significant (p < or = 0.0001). The fact that an agent may affect neovascular branching/tortuosity and spatial extension in a distinctly contradictory fashion has not been reported previously.

Induction of stress proteins in SV-40 transformed human RPE-derived cells by organic oxidants

The expression and induction of heat shock proteins (HSPs) were examined in cultured SV-40-transformed human retinal pigment epithelial (RPE)-derived cells following exposure to chemical oxidants. Concentrations of hydrogen peroxide and the organic oxidants tert-butyl hydroperoxide, cumene hydroperoxide and linoleic acid hydroperoxide were used under conditions where cell viability was between 75% and 90% as determined by the trypan blue exclusion tests. The types of HSPs that are either induced and/or elevated from constitutive levels in cultured transformed cells were separated both by SDS-PAGE and by two-dimensional gel electrophoresis. Subsequent immunoblotting was performed with both a monoclonal antibody (MAb C92) specific for only the stress-inducible form of HSP 70, namely HSP 72, and with a monoclonal antibody (MAb N27) specific for both the stress-inducible HSP 72 and its constitutive form, HSP 73. As positive controls for comparison, other types of stressing agents were used that included heat shock at 41 degrees C for various times and exposure to the proline analogue, azetidine-2-carboxylic acid (AzC). Protein immunoblotting analysis demonstrate that: (a) Stress-inducible HSP 72 is present at low levels in non-stressed cultured transformed RPE-derived cells and in fresh bovine retina and RPE, but is not detectable in non-stressed cultured lung fibroblasts until induction with heat shock; and (b) Stress-inducible HSP 72 is elevated from constitutive levels in RPE-derived cultured cells after exposure to various oxidants. After cellular exposure to both organic oxidants and to AzC in the presence of L-[35-S]-methionine, two-dimensional gel electrophoresis confirmed the elevation of newly synthesized HSP 72. Thus, these results indicate that cultured human SV-40-transformed RPE-derived cells are capable of elevated HSP 72 biosynthesis under conditions of oxidative stress produced by organic oxidants.

Induction of the 72-kD heat shock protein in organ-cultured normal human skin

To study the induction of heat shock protein (HSP) of normal human skin, the indirect immunofluorescence method, using monoclonal antibody directed against 72-kD HSP, was applied in organ-cultured normal human skin that was treated with heat, UV, or chemicals. The present study provided new evidence that HSP 72 was induced not only by heat and chemical agents, such as L-azetidine 2-carboxylic acid, and sodium arsenite, but also by ultraviolet (UV B and C). The result suggests that normal human skin has an induced protective function against numerous environmental stresses.

Role of ascorbic acid in the regulation of proliferation in osteoblast-like MC3T3-E1 cells

Proliferation of osteoblast-like MC3T3-E1 cells was minimal in serum-free Eagle's minimum essential medium (MEM) but was enhanced by about 3.5-fold in serum-free alpha-modification of MEM (alpha-MEM). By adding back each of the extra constituents present in alpha-MEM to MEM, it was found that ascorbic acid was responsible for the sustained proliferation of MC3T3-E1 cells without serum. Ascorbic acid also stimulated the synthesis of collagen and increased the hydroxyproline content of MC3T3-E1 cell cultures markedly. Inhibitors of collagen synthesis, L-azetidine-2-carboxylic acid, cis-4-hydroxyproline, and 3,4-dehydroproline, almost completely eliminated the stimulatory effect of ascorbic acid on DNA synthesis of MC3T3-E1 cells. The dose response of the effect of L-azetidine-2-carboxylic acid on the hydroxyproline content closely paralleled that on DNA synthesis of MC3T3-E1 cells. Furthermore, a 10 times higher concentration of proline, which competes with L-azetidine-2-carboxylic acid for the incorporation into procollagen molecules, reversed the inhibition of DNA synthesis by L-azetidine-2-carboxylic acid. These results are consistent with the assumption that the stimulatory effect of ascorbic acid on the proliferation of MC3T3-E1 cells is mediated through its effect on the synthesis of collagen or some related protein. Furthermore, a fibronectin attachment peptide, GRGDTP, that competes with matrix proteins for specific binding to cell surface adhesion receptors also inhibited the stimulation of proliferation by ascorbic acid almost completely.(ABSTRACT TRUNCATED AT 250 WORDS)

Diverse forms of stress result in changes in cellular levels of osteonectin/SPARC without altering mRNA levels in osteoligament cells

The osteonectin/SPARC gene has been shown to possess motifs for a heat shock element and metal responsiveness. Also, the expression of the protein has been associated with culture stress in endothelial cells. In the present study, osteoligament (OL) cells derived from the patellar ligament were subjected to diverse forms of stress that included (a) exposure to sodium arsenite, (b) heat shock, (c) cadmium ion, and (d) the amino acid analog, AZC. Osteonectin/SPARC levels in OL cells were determined by Western blot analyses, and immunoprecipitation using antiosteonectin antibodies. Expression of osteonectin/SPARC mRNA was determined by Northern analysis using a 1.5 kb EcoRI restriction fragment of bovine osteonectin cDNA. These studies reveal that osteonectin/SPARC is produced following diverse forms of stress, however, the levels are lower than observed in unchallenged OL cells. In all instances, the mRNA levels were comparable to control cells. These studies indicate that expression of osteonectin/SPARC mRNA is tightly controlled in OL cells and that the protein may be regulated at the level of protein translation.

Effect of L-azetidine 2-carboxilic acid on the activity of the general amino-acid permease from Saccharomyces cerevisiae var. ellipsoideus

Addition of the L-proline analogue L-azetidine 2-carboxylic acid to growing cultures of Saccharomyces cerevisiae var. ellipsoideus promoted fast deactivation of the general aminoacid permease, measured as L-valine uptake, without an immediate decrease in the growth rate. Cells preincubated with the analogue for 3 h were unable to restore either growth ability or general aminoacid permease activity in analogue-free medium. Eadie-Hofstee plots of L-valine uptake in the presence of the analogue are consistent with a strong reduction in the number of active molecules of the general amino-acid permease located in the plasma membrane. Inhibitory effects on protein synthesis were seen after preincubations of the yeast with the analogue for 3 h although a 30 min preincubation had no effect.

L-ascorbic acid 2-phosphate, a phosphate derivative of L-ascorbic acid, enhances the growth of cultured rabbit keratocytes

We examined the effect of L-ascorbic acid 2-phosphate (P-Asc) on the proliferation of cultured rabbit keratocytes. P-Asc is a phosphate derivative of L-ascorbic acid and has more prolonged vitamin C activity in solution than does L-ascorbic acid. The proliferation of cultured keratocytes was promoted by the presence of P-Asc in culture medium. Transmission electron microscopic observations revealed that cells were more multi-layered after culture in the presence of P-Asc (0.1 mM) for 30 days than were those cultured in the absence of P-Asc. The effect of P-Asc was abrogated by L-azetidine 2-carboxylic acid, which is an analogue of proline that inhibits the production and secretion of collagen. Our observations support a therapeutic role for P-Asc in the repair of corneal stromal damage such as that caused by a corneal chemical burn.

Hemodynamic changes following long-term administration of CS-905, a novel dihydropyridine calcium blocker, in conscious SHR

To investigate the central and regional hemodynamics after long-term administration of CS-905, a novel calcium blocker, we administered the agent (1 and 3 mg/kg/day) for 15 weeks in spontaneously hypertensive rats. At the end of the dosing period, hemodynamic changes were examined using the radioactive microsphere technique. CS-905 produced a sustained dose-dependent antihypertensive effect without inducing tolerance during the 15-week dosing period and prevented cardiac hypertrophy. The agent increased cardiac output, decreased blood pressure and thus decreased total peripheral resistance in a dose-related manner. Regional blood flows measured by the microsphere technique were increased in the kidney and brain despite the lowered blood pressure. There was no organ where regional blood flow was decreased. These changes after chronic treatment with CS-905 would be beneficial in the long-term therapy of hypertension.

Synthesis and bioactivity of a new class of rigid glutamate analogues. Modulators of the N-methyl-D-aspartate receptor

A variety of derivatives of azetidine-2,4-dicarboxylic acid were synthesized and examined for their ability to stimulate 45Ca2+ uptake in cultures of cerebellar granule cells. Of the compounds tested, the cis-azetidine-2,4-dicarboxylic acid (10f) was found to be the most potent agent in potentiating glutamate, aspartate, or N-methyl-D-aspartate (NMDA) stimulated 45Ca2+ uptake at the NMDA receptor. The mechanism of action of 10f was further investigated in [3H]MK-801 binding assays and [3H]GABA release from cultured embryonic rat forebrain neurons. All of the results from the functional studies of azetidine 10f are consistent with a selectivity of action at the NMDA receptor. Moreover, azetidine 10f appears to exhibit a dual type of action, behaving as a glutamate-like agonist at higher concentrations and as a positive modulator at concentrations below 50 microM.

Antihypertensive effect of CS-905, a novel dihydropyridine calcium blocker, in conscious hypertensive dogs

CS-905, (+-)-3-(1-diphenylmethylazetidin-3-yl)5-isopropyl 2-amino-1,4-dihydro-6-methyl-4-(m-nitrophenyl)-3,5-pyridine-dicarboxy lat e, is a novel dihydropyridine calcium blocker. Both CS-905 and nicardipine, when administered orally, produced a dose-dependent fall of blood pressure in conscious perinephritic hypertensive dogs. Unlike the hypotensive effect of nicardipine, that of CS-905 has a gradual onset and is long-lasting, with little increase in the heart rate and plasma renin activity (PRA). The lack of both tachycardia and increase of PRA is probably mostly due to the slow onset of antihypertensive action following CS-905.

Interaction of Hsp 70 with newly synthesized proteins: implications for protein folding and assembly

The 70-kilodalton family of heat shock proteins (Hsp 70) has been implicated in posttranslational protein assembly and translocation. Binding of cytosolic forms of Hsp 70 (Hsp 72,73) with nascent proteins in the normal cell was investigated and found to be transient and adenosine triphosphate (ATP)-dependent. Interaction of Hsp 72,73 with newly synthesized proteins appeared to occur cotranslationally, because nascent polypeptides released prematurely from polysomes in vivo can be isolated in a complex with Hsp 72,73. Moreover, isolation of polysomes from short-term [35S]Met-labeled cells (pulsed) revealed that Hsp 72,73 associated with nascent polypeptide chains. In cells experiencing stress, newly synthesized proteins coimmunoprecipitated with Hsp 72,73; however, in contrast to normal cells, interaction with Hsp 72,73 was not transient. A model consistent with these data suggests that under normal growth conditions, cytosolic Hsp 72,73 interact transiently with nascent polypeptides to facilitate proper folding, and that metabolic stress interferes with these events.

Further studies on substrates inducing metacyclogenesis in Trypanosoma cruzi

Epimastigotes of Trypanosoma cruzi, Peru strain, incubated in Contreras' artificial triatomine urine transformed into metacyclic trypomastigotes when 10 mM L-glutamine, L-asparagine or D-fructose was added to the medium. Metacyclogenesis with these substrates was comparable to the percent metacyclic morphotype formation induced by L-proline and significantly greater than that stimulated by 10 mM D-glucose. Sodium acetate (10 mM) increased transformation induced by L-proline, and L-hydroxyproline (10 mM) increased transformation induced by D-fructose. Phosphoenolpyruvate (10 mM) inhibited L-proline-induced metacyclic trypomastigote stage formation. Three antimetabolites, azetidine 2-carboxylate (5 mM), malonic acid (1 mM), and desthiobiotin (5 mM), completely inhibited D-fructose-induced but not L-proline-induced transformation. The Costa Rica, Y, and CL strains of T. cruzi showed different patterns of percent metacyclogenesis with substrates that induce transformation in the Peru strain.

The effect of the L-azetidine-2-carboxylic acid residue on protein conformation. III. Collagen-like poly(tripeptide)s

The chemical and biological properties of collagen are altered by the biosynthetic substitution of the L-azetidine-2-carboxylic acid(Aze) residue in the place of proline. The reasons for this alteration have been studied by means of conformational energy computations on single- and triple-stranded structures formed by poly(Gly-X-Y) poly(tripeptide)s, where X and Y can be Pro or Aze. The most stable triple helix formed by Poly(Gly-Pro-Aze) is collagen-like, but all low-energy triple helices that can be formed by poly(Gly-Aze-Pro) and poly(Gly-Aze-Aze) are very different from collagen. Thus, the regular substitution of Aze for Pro in position X is not compatible with the collagen structure. In the absence of solvent effects, all of these triple helices are stable, relative to the statistical coil, but the substitutions reduce the stability of the collagen-like triple helix, as compared with poly(Gly-Pro-Pro).

The effect of the L-azetidine-2-carboxylic acid residue on protein conformation. I. Conformations of the residue and of dipeptides

The L-azetidine-2-carboxylic acid (Aze) residue can be incorporated into proteins in the place of L-proline, of which it is the lower homologue. This substitution alters the properties of proteins, especially of collagen. Conformational constraints in N-acetyl-Aze-N'-methylamide and in several dipeptides containing Aze have been analyzed by means of energy computations. They have been compared with peptides containing Pro. The overall conformational preferences of Aze and Pro are similar, but several significant differences occur between them. In general, peptides containing Aze are somewhat more flexible than corresponding peptides containing Pro, because of a decrease in constraints caused by repulsive nonconvalent interactions of the atoms of the ring with neighboring residues. This results in an entropic effect that lessens the stability of ordered polypeptide conformations with respect to the disordered statistical coil. The collagen-like near-extended conformation is energetically less favorable for Aze than for Pro in the single residue and in dipeptides. This effect also contributes to a destabilization of the collagen triple helix. The influence of Aze on the conformation of polypeptides is discussed in the accompanying papers.

The effect of the L-azetidine-2-carboxylic acid residue on protein conformation. II. Homopolymers and copolymers

The alteration of polymer conformational properties caused by the replacement of L-proline by L-azetidine-2-carboxylic acid (Aze) has been studied by means of conformational energy computations. In addition to poly(Aze), two sequential copolymers, poly(Pro-Aze) and poly(Aze3-Pro3), have been investigated. All polymers containing Aze are more flexible than poly(Pro). This is a consequence of an increased number of permitted conformational states for the Aze residue, as compared to Pro, when they are incorporated into a polypeptide, as well as of a lessened cooperativity of the trans-cis transition. The results of the computation can be used to interpret the observed physical properties of poly(Aze) and of its copolymers.

Beneficial renal effects of CS-905, a novel dihydropyridine calcium blocker, in SHR

CS-905 is a potent dihydropyridine calcium blocker that has a gradual and long-lasting antihypertensive action with little tachycardia in SHR. In this study, we investigated chronic and acute effects of CS-905 on renal functions in SHR. To examine the chronic effects, 23 week-old male SHR were treated with CS-905 (1 or 3 mg/kg/day, p.o.) or 0.3% CMC (carboxymethylcellulose). After the 15 week-treatment, the agent dose-relatedly lowered systolic blood pressure measured 24 hr after the final administration (184 +/- 2 and 173 +/- 3 mmHg at 1 and 3 mg/kg/day vs. 218 +/- 4 mmHg for the control group). Natriuresis and the reduction of urinary protein excretion were also observed in the CS-905 treated groups. Urinary NAG (N-acetyl-beta-D-glucosaminidase) activity tended to decrease, but not significantly. Histopathological changes observed in the SHR kidney were reduced by chronic treatment with CS-905. On a single oral administration in 38 week-old SHR, CS-905 caused natriuresis at a dose of 3 mg/kg, but did not affect urinary protein excretion and urinary NAG activity. These effects of CS-905 on renal functions may be beneficial in the treatment of hypertension.

Antihypertensive effects of CS-905, a novel dihydropyridine Ca++ channel blocker

CS-905 is a novel dihydropyridine calcium blocker. A single oral administration of CS-905 or nicardipine at doses of 0.3-3.0 mg/kg produced a dose-dependent reduction of blood pressure in conscious SHR. CS-905, when administered orally in conscious SHR, was more than 3 times as potent as nicardipine. Unlike the hypotensive effect of nicardipine, that of CS-905 has a gradual onset and is long-lasting, with little increase in heart rate. An intravenous administration of CS-905 also produced a hypotension with a slow onset and long duration in SHR, but CS-905 was 3 times less potent than nicardipine by intravenous administration. This difference may be attributed to the first pass effect, which was associated with nicardipine but not with CS-905. The blood pressure lowering effects of CS-905 was most potent in DOCA-salt hypertensive rats, followed by SHR, RHR and normotensive rats, in this order. CS-905 is expected to be an antihypertensive agent that is effective on a once a day regimen in clinical settings.

Expression of heat stress proteins by human periodontal ligament cells

The purpose of the present report was to document the stress response produced by physical and chemical abuses to human periodontal ligament cells, and to review some of the known functions of stress response proteins produced as a result of such treatments. For these studies human PDL cells were exposed to sublethal challenges of 43 degrees C heat, sodium arsenite and the amino acid analog L-azetidine-2-carboxylic acid (AZC). The cells were labelled with [35S]-methionine and the proteins produced were examined by autofluorography of SDS-PAGE gels. Heat challenges were shown to induce hsps with an apparent mol. wts. of 90K, 68-72K, 41-47K, and 36 K. Arsenite-treated cells produced similar hsps including a 30k protein not produced by other forms of stress. AZC treatment resulted in the production of apparent functionless hsps with apparent molecular weights of 90,000, 72,000, 68,000 and 36,000. The function of these proteins and their possible role in periodontal disease is discussed.

Experimental control of the differentiation of Leydig cells in the rat fetal testis

In the developing fetal testis, in vitro as well as in vivo, two kinds of endocrine cells differentiate successively: Sertoli cells, which produce the Müllerian inhibitor (or anti-Müllerian hormone) and aggregate with germ cells into seminiferous cords; and Leydig cells, which release androgens. Serum added to the synthetic culture medium prevents the morphogenesis of the seminiferous cords but not the cytodifferentiation of the endocrine cells. L-Azetidine 2-carboxylic acid (LACA), a proline competitor, introduced into the medium also prevents differentiation of seminiferous cords. In the present experiments, the effects of LACA on the endocrine cells were studied. It did not suppress production of the Müllerian inhibitor, but it opposed differentiation of Leydig cells. Histochemically detectable 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) was virtually absent and the release of testosterone, delta 4-androstenedione, 17-hydroxyprogesterone, or progesterone into the medium became undetectable. Moreover, dibutyryl cAMP added to the medium during the final day in vitro had very little effect on the parameters of steroidogenesis. An excess of proline added to the LACA-containing medium permitted normal morphogenesis of seminiferous cords, normal steroidogenesis, and normal response to cAMP. LACA did not prevent the appearance of 3 beta-HSD activity in the adrenals, nor did it reduce the expression of laminin and fibronectin (data not shown) in the mesonephric structures as much as in the testes. The differentiation of the testis and especially of the Leydig cells appears to have special requirements for proline.

Induction of endothelial cell migration by proline analogs and its relevance to angiogenesis

The proline analogs cis-4-hydroxy-L-proline, 3,4-dehydro-L-proline, and 2-azetidinecarboxylic acid induced increases in the migration rate of retinal capillary endothelial cells, aortal endothelial cells, corneal endothelial cells, aortal smooth muscle cells, and retinal pericytes. cis-4-hydroxy-D-proline did not. The optimal concentration for migration induction by any of the active agents was approximately 10(-5) M. At higher concentrations (5 x 10(-4) M) migration was not induced or was inhibited. When tested by subcutaneous implant assays in rabbits, cis-4-hydroxy-L-proline and 2-azetidinecarboxylic acid consistently elicited a marked angiogenic response. Whereas these compounds are known to modulate collagen synthesis and secretion, the concentrations at which they are effective inducers of migration suggest that they may have a more specific target than general collagen synthesis.

Postnatal development of rat lung following retarded fetal lung growth

Postnatal lung development was examined in rats born with smaller than normal lungs after either prenatal exposure to glucocorticoid or to an inhibitor of collagen synthesis. At birth, treated animals had lower than normal lung weights, lung to body weight ratios, hydroxyproline (HYP) levels, total DNA; and rates of DNA synthesis. Rats exposed to steroid showed a rapid recovery in growth during the normal postnatal cell proliferative phase from 4 to 11 days, though collagen levels did not return to normal until 3 weeks of age. Rats exposed to a prenatal proline analog showed a much slower rise in lung weight and total DNA, and these levels were still much below normal at 2-3 weeks when the cell proliferation phase was completed. Levels of disaturated phosphatidylcholine were significantly below normal up to 11 days, whereas total HYP was significantly reduced and less fibrillar collagen was seen in the lung throughout the study. The results indicate that the smaller but mature lungs at birth after antenatal steroid show a growth rebound and quickly become structurally normal. In contrast, inhibition of fibroblast growth and collagen deposition produces small lungs at birth, which continue to show inhibited growth and development at least up to 3 weeks of age, when the cell division phase is over.

Mugineic acid: non-selective enhancement of excitatory amino acid actions on rat central neurones

The effects of mugineic acid upon excitations induced by quisqualic acid (quis), N-methyl-D-aspartic acid (NMDA) and kainic acid (kain) on rat central neurones were examined in vivo through microiontophoretic drug administration in anaesthetized rats. Mugineic acid usually caused a non-selective enhancement of drug-induced excitations, occasionally producing direct excitation itself or increasing the rate of spontaneous discharge. Mugineic acid-induced effects were not blocked by the NMDA selective antagonist, 2-amino-5-phosphonovaleric acid (AP5).

L-azetidine-2-carboxylic acid retards lung growth and surfactant synthesis in fetal rats

Maturation of the pulmonary epithelium during late fetal development is controlled at least in part by the underlying fibroblasts. To further investigate this cellular interdependence and the role of collagen in type 2 cell differentiation, we studied the effects of inhibiting fibroblast function in vivo by injecting the proline analog L-azetidine-2-carboxylic acid (LACA) to timed pregnant rats, and examining changes in cell proliferation and surfactant synthesis in fetal lungs. LACA (200 mg/kg) was injected twice daily for 2 days and rats were killed 2 days later at days 19, 20, 21, and 22 of gestation. Fetal lung weight and DNA content were about 50% of controls, hydroxyproline per dry weight was reduced and by electron microscopy, there appeared to be less fibrillar collagen in the lung. Autoradiography after [3H]thymidine pulse-labeling showed reduced cell proliferation on days 19 and 20 mainly due to lower fibroblast growth with a smaller reduction in epithelial labeling. Lung development in LACA-treated rats was retarded; air sacs were slow to open, epithelial cells retained glycogen longer and fewer cells developed lamellar bodies compared with age-matched controls. There was a reduction in the incidence of epithelial-interstitial cell contacts at day 20 only. Measurements of disaturated phosphatidylcholine showed a 50% reduction per dry weight and a lower disaturated phosphatidylcholine/lipid ratio after LACA. The results indicate that LACA administration in vivo slows fibroblast growth and greatly reduces fibrillar collagen deposition with an accompanying reduction in pulmonary surfactant. This suggests that secreted matrix influences growth and differentiation of the alveolar epithelium.

Translational repression by chemical inducers of the stress response occurs by different pathways

The mechanism by which chemical inducers of the stress response inhibit protein synthesis was examined. All the chemicals tested principally inhibit the initiation phase of translation. Covalent modification of the initiation factor proteins does not constitute a common mechanism. Eukaryotic initiation factor (eIF)-2 alpha phosphorylation is moderately to strongly induced by Na arsenite and diamide, but only slightly to imperceptibly affected by iodoacetamide, azetidine carboxylic acid, and canavanine. eIF-4B dephosphorylation does not occur in any case. The only consistent change detected is the hyperphosphorylation of the 28,000 Da heat stress protein. These results indicate that these diverse chemicals, all of which enhance the transcription of the stress mRNAs, do not inhibit translation by a common, recognized mechanism; it is likely that several distinct pathways leading to inhibition exist.

Cellular and biochemical events in mammalian cells during and after recovery from physiological stress

We have examined and compared a number of cellular and biochemical events associated with the recovery process of rat fibroblasts placed under stress by different agents. Metabolic pulse-labeling studies of cells recovering from either heat-shock treatment, exposure to sodium arsenite, or exposure to an amino acid analogue of proline, L-azetidine 2-carboxylic acid, revealed interesting differences with respect to the individual stress proteins produced, their kinetics of induction, as well as the decay in their synthesis during the recovery period. In the initial periods of recovery, the major stress-induced 72-kD protein accumulates within the altered nucleoli in close association with the pre-ribosomal-containing granular region. During the later times of recovery from stress, the nucleoli begin to regain a normal morphology, show a corresponding loss of the 72-kD protein, and the majority of the protein now begins to accumulate within the cytoplasm in three distinct locales: the perinuclear region, along the perimeter of the cells, and finally in association with large phase-dense structures. These latter structures appear to consist of large aggregates of phase-dense material with no obvious encapsulating membrane. More interestingly we show, using double-label indirect immunofluorescence analysis, that much of the perinuclear and cell perimeter-distributed 72-kD protein coincides with the distribution of the cytoplasmic ribosomes. We discuss the possible implications of the presence of the 72-kD stress proteins within the pre-ribosomal-containing granular region of the nucleolus as well as its subsequent colocalization with cytoplasmic ribosomes in terms of the translational changes which occur in cells both during and after recovery from physiological stress.

Proline transport in Salmonella typhimurium: putP permease mutants with altered substrate specificity

The putP gene encodes a proline permease required for Salmonella typhimurium LT2 to grow on proline as the sole source of nitrogen. The wild-type strain is sensitive to two toxic proline analogs (azetidine-2-carboxylic acid and 3,4-dehydroproline) also transported by the putP permease. Most mutations in putP prevent transport of all three substrates. Such mutants are unable to grow on proline and are resistant to both of the analogs. To define domains of the putP gene that specify the substrate binding site, we used localized mutagenesis to isolate rare mutants with altered substrate specificity. The position of the mutations in the putP gene was determined by deletion mapping. Most of the mutations are located in three small (approximately 100-base-pair) deletion intervals of the putP gene. The sensitivity of the mutants to the proline analogs was quantitated by radial streaking to determine the affinity of the mutant permeases for the substrates. Some of the mutants showed apparent changes in the kinetics of the substrates transported. These results indicate that the substrate specificity mutations are probably due to amino acid substitutions at or near the active site of proline permease.

An internal survival standard for Salmonella typhimurium forward mutation assays

A novel S. typhimurium forward mutation assay which avoids plating density artifacts is described. The new method uses a pair of multiply drug-resistant substrains of TM677, a bacterial strain used in previous forward mutation studies. This technique permits the measurement of cell survival following mutagen treatment by plating the culture on specially supplemented plates at the same cell concentration used to measure mutant yield. Thus this method is both technically easier and theoretically superior to our previous method.

Collagen synthesis and deposition during mammary epithelial cell spreading on collagen gels

Mouse mammary epithelial cultivated on collagen gels demonstrate active spreading as the cells form monolayers. In this novel system, initiation of cell spreading is preceded by de novo synthesis of type IV collagen. The newly synthesized collagen is partitioned such that after 48 hr, approximately 24% is found in the culture medium, 35% is intracellular, and 41% is deposited in the extracellular matrix of the developing epithelium. Cultures deprived of serum failed to spread and to synthesize collagen. Proline analogues were shown to inhibit cell spreading and to suppress collagen synthesis in a dose-dependent manner. Cytochalasin D inhibition of F-actin elongation was shown to prevent cell spreading but not to suppress total collagen synthesis. During cytochalasin D treatment, inhibition of cell spreading was shown to result from failure to deposit or to maintain deposited collagen in the epithelium extracellular matrix. The data indicate that synthesis and extracellular deposition of a major basal lamina component (viz. type IV collagen) must precede and then accompany epithelial cell spreading in collagen gel culture. It is suggested that the microfilament apparatus, through some hypothetical integral membrane protein, can anchor extracellular type IV collagen, which then provides a necessary condition for cell spreading.

Collagen-production inhibitors evaluated as antitumor agents

Proline analogues such as cis-4-hydroxy-L-proline (CHP) and L-azetidine-2-carboxylic acid (A2C) were tested for their antitumor activity in tissue culture and in vivo. In culture, CHP specifically inhibited those tumor cells that synthesized basement-membrane collagen. CHP appeared to selectively inhibit collagen biosynthesis with only a slight effect on protein synthesis. Culturing cells on type IV collagen matrix did not alter the antiproliferative effect of CHP. The inhibition of 450.1 mouse mammary tumor cells was fully reversible when cultures were incubated for 6 or 12 hours with 25 micrograms CHP/ml but was irreversible after 24 hours of exposure. Of the proline analogues tested against 450.1 tumor cells, A2C and CHP were the most potent inhibitors of cell growth. These two compounds were therefore tested in vivo using 3 transplantable tumors, all of which synthesized basement-membrane collagen. CHP and A2C were given twice daily to mice for 7 to 10 days at doses ranging from 50 mg/kg (body wt) to 600 mg/kg (body wt) per injection. Both CHP and A2C were completely inactive against the 450.1 mammary tumor and the EHS sarcoma. Both compounds also caused considerable liver toxicity. Against CD8F1 mammary tumors, treatment with maximum tolerated doses of CHP and A2C resulted in a slight but insignificant inhibition of tumor growth. While our studies confirmed previous findings that CHP specifically inhibited those tumor cells that synthesized basement-membrane collagen, CHP and A2C did not appear to be efficacious antitumor agents.

Effects of L-azetidine-2-carboxylic acid on matrix secretion and Golgi structure in fibroblasts and osteoblasts of the mouse

The effect of a proline analogue, L-azetidine-2-carboxylic acid (LACA), on collagenous matrix secretion by periodontal ligament fibroblasts and alveolar bone osteoblasts was studied by light and electron microscopic radioautography after injection of 3H-glycine; 3H-glycine labeled material accumulated in the cisternae of the rough endoplasmic reticulum and was not secreted for over 4 hours. The Golgi complex of both fibroblasts and osteoblasts showed a marked alteration of its composition after LACA administration. All Golgi saccules and collagen secretion granules disappeared within 2 hours. Flattened Golgi cisternae were still present and appeared to be unaffected by the administration of LACA. These observations indicate that Golgi saccules in collagen-secreting cells are the initial staging areas for the formation of collagen secretory granules and that there is a close correlation between form and function in the Golgi apparatus of collagen-secreting cells.

Amino acid analogs while inducing heat shock proteins sensitize CHO cells to thermal damage

Amino acid analogs have been shown to induce heat shock proteins (HSPs). We have examined the effect of these analogs on the thermal sensitivity of Chinese hamster fibroblasts (HA-1) and their stable heat-resistant variants. We found that exposure of HA-1 cells and their heat-resistant variants to canavanine or L-azetidine-2-carboxylic acid cause enhanced synthesis of the three major mammalian HSPs (molecular weight 70,000, 87,000, and 110,000 kd). Although the synthesis of HSPs was increased, the analogs did not induce thermotolerance, a transient ability to protect cells from thermal damage. On the contrary, the analog treatment increased the thermal sensitivity of HA-1 cells, but not of the heat-resistant strains, when these cells were exposed subsequently to elevated temperatures. Our tentative explanation for these findings is that the incorporation of amino acid analogs into HSPs or other cellular proteins sensitizes HA-1 cells to heat. The heat-resistant strains contain higher levels of constitutive HSPs. The additional functional HSPs in the heat-resistant variants may protect these cells from thermal stress. The presence of some newly synthesized analog-substituted, perhaps nonfunctional, HSPs need not affect this thermal protection.

Pharmacological inhibition of excessive collagen deposition in fibrotic diseases

Excessive accumulation of collagen is a major pathological feature in diseases characterized by tissue fibrosis. Although several therapeutic approaches have been attempted in such patients, currently no treatment modality would specifically reduce collagen deposition in tissues. In this paper we discuss the mode of action of compounds that interfere with collagen production on the posttranslational level. First, structural analogs of proline, cis-4-hydroxy-L-proline and L-azetidine-2-carboxylic acid, which are incorporated into the newly synthesized polypeptides of procollagen during translation, prevent the polypeptides from folding into a stable triple-helical conformation. As a consequence, the nonhelical polypeptides are subject to degradation by proteases, thus leading to reduced deposition of collagen fibers. Second, several naturally occurring amino acids, polyamines, and their structural analogs prevent the removal of the carboxy-terminal extensions during the extracellular conversion of procollagen to collagen. Because the precursor molecules that contain the carboxy-terminal extensions are unable to assemble into functional fibers, collagen deposition is again reduced. Further development of these and related compounds, with appropriate tissue targeting, could potentially provide us with novel means to reduce the excessive deposition of collagen in fibrotic processes.