Time course of bleomycin-induced lung fibrosis.

Intratracheal instillation (IT) of bleomycin is a widely used experimental model for lung fibrosis. In this study we describe the time-course of bleomycin-induced lung fibrosis in mice using computer-assisted morphometry. C57Bl/6J mice were treated with a single IT dose of bleomycin or control saline. Animals were killed 3, 6, 14 and 21 days post-IT. Lung injury was evaluated by analysis of bronchoalveolar lavage (BAL) fluid, hydroxyproline concentration in the lung, routine light microscopic examination resulting in a semiquantitative morphological index (SMI) of lung injury, and quantitative morphological measurements (fibrosis fraction and alveolar wall area fraction) aided by optimas image analysis software. Changes in BAL fluid attributed to bleomycin treatment include increased total cell count (days 14 and 21), and increased percentage of neutrophils (days 3 and 6) followed by a sustained increase in lymphocytes (days 6, 14 and 21). Hydroxyproline levels increased in bleomycin-treated mice on days 14 and 21. Median SMI grades were significantly elevated on days 3, 14 and 21. Computer-assisted morphometry demonstrated a 3-fold increase in fibrosis fraction and a 1.3-fold increase in wall area fraction in bleomycin-treated mice on day 14, with no further increase on day 21. These data also demonstrate that the most suitable time point for assessing lung fibrosis in this model is 14 days after IT instillation of bleomycin, based on the observation that at 14 days the animals developed extensive fibrosis, but had less variability in the fibrotic response and lower mortality than later at 21 days. Computer-assisted morphometry provides objective and quantitative measurements that are a useful tool for the evaluation of bleomycin-induced lung injury.

Mouse mammary tumor virus-Ki-rasB transgenic mice develop mammary carcinomas that can be growth-inhibited by a farnesyl:protein transferase inhibitor.

For Ras oncoproteins to transform mammalian cells, they must be posttranslationally modified with a farnesyl group in a reaction catalyzed by the enzyme farnesyl:protein transferase (FPTase). Inhibitors of FPTase have therefore been developed as potential anticancer agents. These compounds reverse many of the malignant phenotypes of Ras-transformed cells in culture and inhibit the growth of tumor xenografts in nude mice. Furthermore, the FPTase inhibitor (FTI) L-744,832 causes tumor regression in mouse mammary tumor virus (MMTV)-v-Ha-ras transgenic mice and tumor stasis in MMTV-N-ras mice. Although these data support the further development of FTIs, it should be noted that Ki-ras is the ras gene most frequently mutated in human cancers. Moreover, Ki-RasB binds more tightly to FPTase than either Ha- or N-Ras, and thus higher concentrations of FTIs that are competitive with the protein substrate may be required to inhibit Ki-Ras processing. Given the unique biochemical and biological features of Ki-RasB, it is important to evaluate the efficacy of FTIs or any other modulator of oncogenic Ras function in model systems expressing this Ras oncoprotein. We have developed strains of transgenic mice carrying the human Ki-rasB cDNA with an activating mutation (G12V) under the control of the MMTV enhancer/promoter. The predominant pathological feature that develops in these mice is the stochastic appearance of mammary adenocarcinomas. High levels of the Ki-rasB transgene RNA are detected in these tumors. Treatment of MMTV-Ki-rasB mice with L-744,832 caused inhibition of tumor growth in the absence of systemic toxicity. Although FPTase activity was inhibited in tumors from the treated mice, unprocessed Ki-RasB was not detected. These results demonstrate the utility of the MMTV-Ki-rasB transgenic mice for testing potential anticancer agents. Additionally, the data suggest that although the FTI L-744,832 can inhibit tumor growth in this model, Ki-Ras may not be the sole mediator of the biological effects of the FTI.

Peroxisome proliferator-activated receptors gamma and alpha mediate in vivo regulation of uncoupling protein (UCP-1, UCP-2, UCP-3) gene expression.

A role for peroxisome proliferator-activated receptors, PPAR gamma and PPAR alpha, as regulators of energy homeostasis and lipid metabolism, has been suggested. Recently, three distinct uncoupling protein isoforms, UCP-1, UCP-2, and UCP-3, have also been identified and implicated as mediators of thermogenesis. Here, we examined whether in vivo PPAR gamma or PPAR alpha activation regulates the expression of all three UCP isoforms. Rats or lean and db/db mice were treated with PPAR gamma [thiazolidinedione (TZD)] or PPAR alpha (WY-14643) agonists, followed by measurement of messenger RNAs (mRNAs) for UCP-1, UCP-2, and UCP-3 in selected tissues where they are expressed. TZD treatment (AD 5075 at 5 mg/kg x day) of rats (14 days) increased brown adipose tissue (BAT) depot size and induced the expression of each UCP mRNA (3x control levels for UCP-1 and UCP-2, 2.5x control for UCP-3). In contrast, UCP-2 and UCP-3 mRNA levels were not affected in white adipose tissue or skeletal muscle. Chronic (30 days) low-dose (0.3 mg/kg x day) TZD treatment induced UCP-1 mRNA and protein in BAT (2.5x control). In contrast, chronic TZD treatment (30 mg/kg x day) suppressed UCP-1 mRNA (>80%) and protein (50%) expression in BAT. This was associated with further induction of UCP-2 expression (>10-fold) and an increase in the size of lipid vacuoles, a decrease in the number of lipid vacuoles in each adipocyte, and an increase in the size of the adipocytes. TZD treatment of db/db mice (BRL 49653 at 10 mg/kg x day for 10 days) also induced UCP-1 and UCP-3 (but not UCP-2) expression in BAT. PPAR alpha is present in BAT, as well as liver. Treatment of rats or db/db mice with WY-14643 did not affect expression of UCP-1, -2, or -3 in BAT. Hepatic UCP-2 mRNA was increased (4x control level) in db/db and lean mice, although this effect was not observed in rats. Thus, in vivo PPAR gamma activation can induce expression of UCP-1, -2, and -3 in BAT; whereas chronic-intense PPAR gamma activation may cause BAT to assume white adipose tissue-like phenotype with increased UCP-2 levels. PPAR alpha activation in mice is sufficient to induce liver UCP-2 expression.

Comparison of motility and membrane integrity to assess rat sperm viability.

Rat sperm motility and membrane integrity were compared as endpoints for viability. Sperm motility was measured by computer-assisted semen analysis (CASA), whereas membrane integrity was assessed by flow cytometric analysis of sperm stained with two nucleic acid stains, SYBR-14 and propidium iodide. The two techniques were compared in experiments that examined sperm viability over time and by analysis of known mixtures of control and freeze/thaw-killed sperm. Results from the two approaches were quantitatively very similar. Sperm from rats treated with dibromoacetic acid (600 or 1200 mg/kg) or alpha-chlorhyrin (100 mg/kg) were also analyzed. Neither technique detected a treatment-related effect with dibromoacetic acid. CASA identified a significant decrease in sperm motility in alpha-chlorhyrin-treated rats, whereas flow cytometric analysis did not find a measureable change in sperm membrane integrity. Because decreases in sperm motility would be expected to directly affect fertility, CASA may be a more robust endpoint for risk assessment in reproductive toxicology studies than flow cytometric analysis of membrane integrity.

A farnesyltransferase inhibitor induces tumor regression in transgenic mice harboring multiple oncogenic mutations by mediating alterations in both cell cycle control and apoptosis.

The farnesyltransferase inhibitor L-744,832 selectively blocks the transformed phenotype of cultured cells expressing a mutated H-ras gene and induces dramatic regression of mammary and salivary carcinomas in mouse mammary tumor virus (MMTV)-v-Ha-ras transgenic mice. To better understand how the farnesyltransferase inhibitors might be used in the treatment of human tumors, we have further explored the mechanisms by which L-744,832 induces tumor regression in a variety of transgenic mouse tumor models. We assessed whether L-744,832 induces apoptosis or alterations in cell cycle distribution and found that the tumor regression in MMTV-v-Ha-ras mice could be attributed entirely to elevation of apoptosis levels. In contrast, treatment with doxorubicin, which induces apoptosis in many tumor types, had a minimal effect on apoptosis in these tumors and resulted in a less dramatic tumor response. To determine whether functional p53 is required for L-744,832-induced apoptosis and the resultant tumor regression, MMTV-v-Ha-ras mice were interbred with p53(-/-) mice. Tumors in ras/p53(-/-) mice treated with L-744,832 regressed as efficiently as MMTV-v-Ha-ras tumors, although this response was found to be mediated by both the induction of apoptosis and an increase in G1 with a corresponding decrease in the S-phase fraction. MMTV-v-Ha-ras mice were also interbred with MMTV-c-myc mice to determine whether ras/myc tumors, which possess high levels of spontaneous apoptosis, have the potential to regress through a further increase in apoptosis levels. The ras/myc tumors were found to respond nearly as efficiently to L-744,832 treatment as the MMTV-v-Ha-ras tumors, although no induction of apoptosis was observed. Rather, the tumor regression in the ras/myc mice was found to be mediated by a large reduction in the S-phase fraction. In contrast, treatment of transgenic mice harboring an activated MMTV-c-neu gene did not result in tumor regression. These results demonstrate that a farnesyltransferase inhibitor can induce regression of v-Ha-ras-bearing tumors by multiple mechanisms, including the activation of a suppressed apoptotic pathway, which is largely p53 independent, or by cell cycle alterations, depending upon the presence of various other oncogenic genetic alterations.

Colchicine does not ameliorate bleomycin-induced pulmonary injury in hamsters.

We have evaluated the effect of colchicine, a potential antifibrotic drug, on bleomycin-induced pulmonary inflammation in hamsters. Pulmonary injury was induced by a single intratracheal (IT) instillation of bleomycin (bleo). Four groups of male Syrian hamsters each received one of four treatments: (1) IT bleo and twice daily intraperitoneal (IP) injections of colchicine (col) starting one day before IT instillation of bleo (bleo-col); (2) IT bleo and IP injections of saline (bleo-sal); (3) IT saline and IP colchicine (sal-col); and (4) IT saline and IP saline (sal-sal). Animals were sacrificed 28 days after IT treatment. Lung injury was evaluated histologically, biochemically and by analysis of bronchoalveolar lavage (BAL) fluid. Treatment of hamsters with colchicine did not ameliorate the bleo-induced lung injury, as determined by a semiquantitative morphological index that assesses the severity and extent of the lung injury on a scale of 0-3. Lung hydroxyproline measurements and BAL fluid cell count were also similar in bleo-col compared to bleo-sal hamsters. Colchicine did not prevent the bleo-induced restriction expressed by volume displacement. These results indicate that colchicine does not ameliorate the bleo-induced lung inflammation and fibrosis and call for further controlled investigations to justify the use of this drug in pulmonary disorders.

Amelioration of bleomycin-induced pulmonary injury by cyclosporin A.

This study evaluated the effect of cyclosporin-A (CyA), a potent immunosuppressive drug, on Bleomycin (Bleo)-induced pulmonary inflammation in hamsters. Pulmonary injury was induced by a single intratracheal (i.t.) instillation of Bleo. Four groups of 10 male Syrian hamsters each received one of four treatments: (1) i.t. Bleo and daily intraperitoneal (i.p.) injections of CyA starting 1 day before i.t. instillation of Bleo (Bleo-CyA); (2) i.t. Bleo and i.p. injections of saline (Bleo-Sal); (3) i.t. saline and i.p. CyA (Sal-CyA); (4) i.t. saline and i.p. saline (Sal-Sal). Animals were sacrificed 14 days after i.t. treatment. Lung injury was evaluated histologically, biochemically, and by analysis of bronchoalveolar lavage (BAL) fluid. Treatment of hamsters with CyA significantly ameliorated the Bleo-induced lung injury, as determined by a semiquantitative morphological index that assesses the severity and extent of the injury on a scale of 0-3. Lung hydroxyproline measurements were lower in Bleo-CyA compared to Bleo-Sal, comparable to Sal-Sal and Sal-CyA controls. The percentage of neutrophils, eosinophils, and lymphocytes in BAL fluid was higher in Bleo-Sal and Bleo-CyA animals when compared with control Sal-CyA or Sal-Sal animals. A further increase in percentage of eosinophils was observed in Bleo-CyA compared with Bleo-Sal animals (13.3 +/- 6.6% [mean +/- SE] and 3.7 +/- 2.1%, respectively, p = .0007). BAL fluid protein content was higher in Bleo-Sal compared to Sal-Sal animals, but BAL fluid protein content from Bleo-CyA was not significantly different from that of Bleo-Sal animals. These results indicate that CyA ameliorates the Bleo-induced inflammation but does not prevent leakage of plasma protein or cells into the airspaces. The increased eosinophil numbers in Bleo-CyA-treated hamsters suggests enhanced production of interleukin-4 and -5.

Mice deficient for the amyloid precursor protein gene.

To understand the in vivo function of the amyloid precursor protein (APP) we generated an APP null mutation in mice by homologous recombination in embryonic stem (ES) cells. We show here that homozygous APP deficient mice were produced at expected frequencies. Neither APP mRNA nor protein could be detected in these animals. Yet the homozygous APP mutant mice are fertile and do not show overt abnormalities at up to 12 weeks of age. Neuroanatomical studies of the brain did not reveal significant differences in the knockout mice as compared to the wild-type controls. These results argue against an essential function of APP in mouse embryonic and early neuronal development.

Farnesyltransferase inhibitors and anti-Ras therapy.

The oncoprotein encoded by mutant ras genes is initially synthesized as a cytoplasmic precursor which requires posttranslational processing to attain biological activity; farnesylation of the cysteine residue present in the CaaX motif located at the carboxy-terminus of all Ras proteins is the critical modification. Once farnesylated and further modified, the mature Ras protein is inserted into the cell's plasma membrane where it participates in the signal transduction pathways that control cell growth and differentiation. The farnesylation reaction that modifies Ras and other cellular proteins having an appropriate CaaX motif is catalyzed by a housekeeping enzyme termed farnesyl-protein transferase (FPTase). Inhibitors of this enzyme have been prepared by several laboratories in an effort to identify compounds that would block Ras-induced cell transformation and thereby function as Ras-specific anticancer agents. A variety of natural products and synthetic organic compounds were found to block farnesylation of Ras proteins in vitro. Some of these compounds exhibit antiproliferative activity in cell culture, block the morphological alterations associated with Ras-transformation, and can block the growth of Ras-transformed cell lines in tumor colony-forming assays. By contrast, these compounds do not affect the growth or morphology of cells transformed by the Raf or Mos oncoproteins, which do not require farnesylation to achieve biological activity. The efficacy and lack of toxicity observed with FPTase inhibitors in an animal tumor model suggest that specific FPTase inhibitors may be useful for the treatment of some types of cancer.

Inhibition of farnesyltransferase induces regression of mammary and salivary carcinomas in ras transgenic mice.

For Ras oncoproteins to transform mammalian cells, they must be post-translationally modified with a farnesyl group in a reaction catalysed by the enzyme farnesyl-protein transferase (FPTase). Inhibitors of FPTase have therefore been proposed as anti-cancer agents. We show that L-744,832, which mimics the CaaX motif to which the farnesyl group is added, is a potent and selective inhibitor of FPTase. In MMTV-v-Ha-ras mice bearing palpable tumours, daily administration of L-744,832 caused tumour regression. Following cessation of treatment, tumours reappeared, the majority of which regressed upon retreatment. No systemic toxicity was found upon necropsy of L-744,832-treated mice. This first demonstration of anti-FPTase-mediated tumour regression suggests that FPTase inhibitors may be safe and effective anti-tumour agents in some cancers.

beta-Amyloid precursor protein-deficient mice show reactive gliosis and decreased locomotor activity.

In several pedigrees of early onset familial Alzheimer's disease (FAD), point mutations in the beta-amyloid precursor protein (APP) gene are genetically linked to the disease. This finding implicates APP in the pathogenesis of Alzheimer's disease in these individuals. To understand the in vivo function of APP and its processing, we have generated an APP-null mutation in mice. Homozygous APP-deficient mice were viable and fertile. However, the mutant animals weighed 15%-20% less than age-matched wild-type controls. Neurological evaluation showed that the APP-deficient mice exhibited a decreased locomotor activity and forelimb grip strength, indicating a compromised neuronal or muscular function. In addition, four out of six homozygous mice showed reactive gliosis at 14 weeks of age, suggesting an impaired neuronal function as a result of the APP-null mutation.

Effect of inhibitors of factor Xa or platelet adhesion, heparin, and aspirin on platelet deposition in an atherosclerotic rabbit model of angioplasty injury.

Acute thrombotic reocclusion and restenosis after successful coronary angioplasty are limitations of the procedure. Although the restenotic process is not completely understood, acute platelet deposition and thrombosis are considered important initiating mechanisms. The effort to identify pharmacologic agents capable of modifying acute platelet action following mechanical injury requires an animal model mimicking the clinical pathophysiology as closely as possible. We developed a model of angioplasty-induced injury in atherosclerotic rabbit femoral arteries. Acute 111indium-labelled platelet deposition and thrombosis were assessed four hours after balloon-injury in arteries subjected to prior endothelial damage (air desiccation) and cholesterol supplementation (one month). The effects of recombinant tick anticoagulant peptide (rTAP), a blood coagulation factor Xa (fXa) inhibitor and of recombinant leech antiplatelet protein (rLAPP), a platelet adhesion inhibitor, were compared to heparin (HEP) and aspirin (ASA). Recombinant TAP and HEP, but not rLAPP or ASA, successfully prevented thrombus formation and reduced platelet deposition in balloon-injured vessel segments to levels not significantly different from those observed in the contralateral atherosclerotic non-balloon-injured vessels. Therefore, this model, incorporating balloon catheter dilation of arteries exhibiting neointimal growth and atherosclerotic plaque formation, may be useful for evaluation of possible adjunctive therapies during angioplasty.

Development of inhibitors of protein farnesylation as potential chemotherapeutic agents.

Protein prenylation, adding either the 15-carbon isoprenoid farnesyl or the 20-carbon isoprenoid geranylgeranyl to cysteine residue(s) at or near the C-termini of proteins, is a recently identified post-translational modification that localizes some proteins to a membrane compartment. One of the most intensely studied prenylated proteins is Ras, a low molecular weight GTP-binding protein that plays an important role in the regulation of cell proliferation. Proteins encoded by ras genes with oncogenic mutations are capable of transforming cells in culture. Such mutated ras genes are frequently found in a wide variety of human tumors. Localization of the Ras oncoprotein to the cytoplasmic face of the plasma membrane via farnesylation is essential for efficient cell transforming ability. Thus, inhibition of the Ras farnesylation reaction is a possible anti-cancer strategy. Several strategies have been employed to inhibit Ras farnesylation, including inhibition of isoprenoid biosynthesis and inhibition of the enzyme which catalyzes the farnesylation reaction, farnesyl-protein transferase (FPTase). Inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A reductase, the rate limiting enzyme in isoprenoid biosynthesis, inhibit Ras farnesylation and block the growth of ras-transformed cells. However, antiproliferative effects do not result from specific inhibition of Ras farnesylation; they are also observed in cells transformed by raf, which is independent of Ras farnesylation. A more specific approach to inhibiting Ras farnesylation is to inhibit FPTase. Using random screening of natural products and a rational design approach, a variety of compounds that specifically inhibit FPTase have been isolated.(ABSTRACT TRUNCATED AT 250 WORDS)

Protein farnesyltransferase inhibitors block the growth of ras-dependent tumors in nude mice.

The posttranslational addition of a farnesyl moiety to the Ras oncoprotein is essential for its transforming activity. Cell-active inhibitors of the enzyme that catalyzes this reaction, protein farnesyltransferase, have been shown to selectively block ras-dependent transformation of cells in culture. Here we describe the protein farnesyltransferase inhibitor 2(S)-[2(S)-[2(R)-amino-3-mercapto]propylamino-3(S)-methyl] pentyloxy-3-phenylpropionylmethioninesulfone methyl ester (L-739,749), which suppressed the anchorage-independent growth of Rat1 cells transformed with viral H-ras and the human pancreatic adenocarcinoma cell line PSN-1, which harbors altered K-ras, myc, and p53 genes. This compound also suppressed the growth of tumors arising from ras-transformed Rat1 cells in nude mice by 66%. Under the same conditions, doxorubicin inhibited tumor growth by 33%. Control tumors formed by v-raf- or v-mos-transformed Rat1 cells were unaffected by L-739,749. Furthermore, mice treated with L-739,749 exhibited no evidence of systemic toxicity. This is a demonstration of antitumor activity in vivo using a synthetic small molecule inhibitor of protein farnesyltransferase.

Superoxide dismutase inhibits radiation-induced lung injury in hamsters.

An animal model of pulmonary radiation-induced lung injury was established in the hamster and the effects of pretreatment with recombinant human CuZn superoxide dismutase (SOD) on the development of the lesion were evaluated. Hamsters exposed to a single irradiation dose of 2000 cGy delivered to the thorax were treated with 150 mg/kg body weight of SOD or an equivalent volume of saline intraperitoneally 75 min and subcutaneously 5 min before receiving irradiation. At 4, 8, and 16 weeks following irradiation, pulmonary injury was evaluated by the grading of morphologic changes semiquantitatively, measurement of lung hydroxyproline content, and analysis of bronchoalveolar lavage fluid for total and differential cell counts and total protein concentration. Radiation-induced lung injury in saline-pretreated animals was documented at 16 weeks by histologic morphology and increased protein in bronchoalveolar lavage fluid. SOD protected against radiation-induced pulmonary injury as indicated by the absence of severe histopathologic changes and prevention of elevation in bronchoalveolar lavage protein levels. The beneficial effects of SOD in preventing radiation-induced pulmonary toxicity suggests that this recombinant enzyme may play a role in protection against radiation-induced pulmonary injury in humans.

Anguidine-induced testicular injury in Lewis rats.

Anguidine (diacetoxyscirpenol, DAS) and other trichothecene mycotoxins are potent inhibitors of protein synthesis and injure organs with rapidly dividing cell populations, including the testis. Testicular structure and function were studied in male Lewis rats 1, 3, 7, 30, 60, and 90 days after exposure at age 12 weeks to anguidine at 1.7 mg/kg body weight given by ip injection. The dose was equivalent to 75% of the ip LD50. Anguidine caused a gradual decline in testicular weight beginning 30 days after treatment. Sperm production was also reduced by 30 days, and the frequency of hypocellular seminiferous tubules increased by day 60. There was no evidence of recovery by 90 days. These changes are consistent with injury to proliferating cells early in the maturation sequence. Epididymal sperm reserves were reduced by 3 days after anguidine administration, prior to the reduction in sperm production, suggesting premature release of spermatozoa from the epididymis.

Reduction of anguidine toxicity in rats by atropine and methylatropine.

Lethality of anguidine (diacetoxyscirpenol) in rats and mice appears to be the result of primary or secondary cardiovascular collapse and to be related to severe tissue destruction in the gut and elsewhere. Experiments were performed in rats to examine the effect on anguidine lethality of treatment with several agents that alter gut function or toxic effects of other chemicals in the gut. Administration of atropine sulfate or methylatropine nitrate by sc injection to rats immediately following administration of an LD50 of anguidine and again 4 hr later gave modest but significant protection against anguidine lethality. The drugs were effective over a range of doses between 2.5 and 20 mg/kg, without a clear dose response, and probably were effective at doses lower than 2.5 mg/kg. S-Adenosylmethionine, 25 mg/kg, given to rats at the time of administration of an LD50 of anguidine and again 4 hr later gave some evidence of protection also. Semiquantitative evaluation of pathologic changes in the small intestine, a target of anguidine, indicated partial protection by atropine sulfate against anguidine toxicity at that site. Atropine-treated rats showed less severe damage, earlier resolution of damage, or both.