Flow cytometric analysis of mouse spermatogenic function following exposure to ethylnitrosourea

The effects of the mutagenic agent ethylnitrosourea (ENU) on spermatogenic function and sperm chromatin structure were studied by flow cytometry and the results compared with sperm head morphology measurements. Groups of mice received daily exposures ranging from 0 to 75 mg/kg body weight X 5 days and were sacrificed 28 days later. Fresh testicular cell suspensions and epididymal sperm were stained with acridine orange (AO) and measured by flow cytometry. Sperm nuclei were isolated, fixed, rehydrated, and then either subjected to thermal stress or not prior to staining with AO. Body weights were unaffected by the chemical exposure while the testicular weights were reduced by about 50%. Two-parameter (DNA, RNA) flow cytometry measurements showed a dose-response relationship in the loss of certain cell types, particularly the elongated spermatids, from the testes of treated animals. Flow cytometric analysis of both heat-stressed and non-heat-stressed nuclei showed a relationship between dosage and the coefficient of variation of alpha t [red/(red + green fluorescence)] measurements of AO stained nuclei, thereby demonstrating that alterations of chromatin structure occurred in response to ENU. Enzymatic digestions with RNAse, DNAse, and nuclease S1 suggest that the increase in red fluorescence is due to an increase of single-stranded DNA induced by heat or acid treatment of chemically altered chromatin structure. The lowest daily dosage used (5 mg/kg) caused no significant changes in ratios of testicular cell types, a questionable increase in abnormal sperm head morphology and a detectable change in chromatin structure expressed as alpha t. This report shows that our technique for assaying sperm nuclear chromatin structure appears to have the same level of sensitivity to ENU induced nuclear alterations as the sperm head morphology test.     

Sperm head morphology and nuclear chromatin structure evaluated by flow cytometry in a diallel cross in mice

Genetic factors affecting spermatogenesis, sperm morphology, and chromatin structure in mice were estimated using a diallel cross of the inbred lines C3H/HeJ, C57BL/6J, DBA/2J, and BALB/cByJ. Flow cytometry of acridine orange stained cells was used to evaluate proportions of testicular tetraploid, diploid, and haploid cells and nuclear chromatin structure of sperm, measured by resistance of chromatin to in situ acid denaturation, and quantified by the ratio of double- to single-stranded DNA (alpha t). Percent morphologically abnormal sperm was scored by light microscopy. Heterosis, line, maternal, and reciprocal effects, and general and specific combining abilities were estimated for body and testis weights, testicular cell proportions, sperm alpha t values, and percent abnormal sperm. Heterosis was important for testis weight, alpha t values, and percent abnormal sperm. Inbreds varied in body and testicular weights, alpha t values, and percent abnormal sperm. Significant maternal effects were noted for several traits but could be due to sex-linked (X or Y) factors, since maternal and sex-linked effects were confounded. Although a high positive correlation existed between alpha t values and percent abnormal sperm, the proportion of sperm with altered chromatin structure, measured by FCM, was generally much lower than proportion of morphologically abnormal cells.     

Zinc protects cyclophosphamide-induced testicular damage in rat: Involvement of metallothionein,tesmin and Nrf2

The role of zinc (Zn) in the protection of germ cells against testicular toxicants has long been elucidated, but the exact molecular mechanisms have not yet been explored. Cyclophosphamide (CP), one of the most commonly used anticancer drugs survived ages of treatment, but the unwanted toxicity limits its clinical usage. The present investigation was aimed to explore the role of Zn and its associated pathways in CP-induced testicular toxicity in S.D. rat. CP was administered in saline 30 mg/kg 5× weekly for 3 weeks (total dose of 450 mg/kg) by i.p. route, while Zn was supplemented by oral route at the doses of 1, 3, 10 mg/kg/day for 3 weeks. CP significantly reduced Zn levels in serum and testes, body and testicular weight, sperm count and motility, spermiogenic cells, plasma testosterone and significantly increased the oxidative stress, sperm head abnormalities, sperm DNA damage with decreased chromatin and acrosome integrity; while Zn supplementation ameliorated the same. The present results demonstrated that Zn supplementation protected against CP-induced testicular damages by modulating metallothionein (MT), tesmin and Nrf2 associated pathways. Thus Zn supplementation during anticancer therapy might be potentially beneficial in reducing the off target effects associated with oxidative stress.     

Evaluation of DNA damage in different stages of mouse spermatogenesis after testicular X irradiation

To evaluate whether DNA alterations in mature spermatozoa could stem from DNA damage induced in immature germ cells, testis cells and spermatozoa were analyzed by the comet assay and by the sperm chromatin structure assay 14, 45 and 100 days after in vivo X irradiation of the testes. These times were selected, according to the mouse seminiferous epithelium cycle, to follow the DNA damage induced in different germ cell compartments. The cytotoxic action was assessed by DNA flow cytometric analysis of testicular cells. A dose-dependent increase of DNA damage in testis cells was observed 14 days after irradiation, whereas mature sperm cells were not affected. On the other hand, an increase in DNA strand breaks was seen in spermatozoa 45 days after treatment. DNA damage returned to the control levels 100 days after irradiation. The methods used to evaluate DNA damage gave comparable results, emphasizing the correlation between DNA fragmentation and susceptibility of sperm chromatin to denaturation. Both techniques showed the high radiosensitivity of differentiating spermatogonia. The overall results showed that DNA damage induced in pre-meiotic germ cells is detectable in primary spermatocytes and is still present in mature spermatozoa.     

Acridine orange-induced precipitation of mouse testicular sperm cell DNA reveals new patterns of chromatin structure

Precipitate resulting from interaction between certain intercalators, such as acridine orange (AO), and nucleic acids can be detected by electron microscopy. Formation of precipitate in nuclei of live cells is modulated by chromatin structure. Susceptibility of in situ DNA to precipitation was studied in mouse testicular germ cells during various stages of sperm maturation. DNA in round spermatid chromatin, similar to somatic cell euchromatin, was rather resistant to precipitation; the electron-dense precipitate was granular and randomly distributed. DNA in elongated spermatids was more susceptible to precipitation; the products were in the form of fibers. At early stages of spermatid maturation these fibers were distributed uniformly throughout the entire nucleus. At later stages, the products appeared as approximately 25-nm-thick fibers arranged longitudinally in arrays within the nucleus. With further cell maturation, fibers in the anterior portion of the nucleus appeared to fuse, forming homogeneously dense product. These fibrous products likely represent AO interactions with DNA in chromatin in which transition proteins had replaced histones. Changing patterns of these precipitated fibers likely reflect progressive stages of chromatin condensation, which starts at the center and anterior portion of the nucleus where the fibers coalesce. Mature sperm cell DNA, known to be complexed with protamines, was more resistant to AO-induced precipitation. The data suggest that precipitation induced by AO and monitored by electron microscopy may be a useful probe of nuclear chromatin structure.     

Scrotal heat stress induces altered sperm chromatin structure associated with a decrease in protamine disulfide bonding in the stallion

A variety of testicular insults can induce changes in the structure of spermatozoal chromatin, resulting in spermatozoal DNA that is more susceptible to acid-induced denaturation. The degree of change in the DNA can be measured using the sperm chromatin structure assay (SCSA). The SCSA measures the relative amounts of single- and double-stranded DNA after staining with the metachromatic dye, acridine orange. Here we used a stallion model (n = 4) to study the effects of scrotal heat stress on spermatozoal DNA. This model was created by insulating stallion testes for 48 h and collecting sperm daily thereafter for 60 days. Changes in the SCSA were then correlated with protamine disulfide content and protamine types and levels. Results of the SCSA indicated that the susceptibility of spermatozoal DNA to denaturation was dependent on the spermatogenic cell stage that the ejaculated sperm was in at the time of the heat stress. Spermatozoa with altered DNA had a decrease in the extent of disulfide bonding that was associated with an increase in the susceptibility of DNA to denaturation. However, there were no detectable changes in either the protamine type or level. Thus, in this model, decreased disulfide bonding is associated with an increased susceptibility of spermatozoal DNA to denaturation in the absence of protamine changes.     

Lead chloride affects sperm motility and acrosome reaction in mice

Lead is highly toxic and persistent in the environment and, thus, a major concern for public health. In this study, the effects of lead chloride (PbCl₂) on mouse epididymal sperm were evaluated. Male mice were subcutaneously injected with 74 and 100 mg PbCl₂/kg body weight for four consecutive days. Sperm was collected from the epididymis and several parameters of sperm function, such as sperm density, motility, viability, mitochondrial function, acrosome integrity and morphology, were evaluated. Furthermore, DNA fragmentation was assessed by the terminal deoxylnucleotidyl transferase-mediated deoxyuridine triphosphate (dUTP) nick-end labelling (TUNEL) assay and chromatin integrity was evaluated by sperm chromatin structure assay (SCSA). In order to assess direct effects on existing sperm population, we sacrificed one group for each condition at day 5. The effects of lead upon one entire spermatogenic cycle were evaluated on day 35. Both lead concentrations used in this work affected sperm motility, although no significant differences were observed in sperm viability, mitochondrial function and DNA/chromatin integrity. However, a decrease in the percentage of intact acrosomes was also observed, mirroring a lead-induced premature acrosome reaction. Thus, the results obtained indicate that, together with impaired motility, the effect of lead toxicity on acrosome integrity, leading to premature reaction, may compromise the ability of sperm to fertilize the oocyte.     

Effects of sub-chronic aluminum chloride on spermatogenesis and testicular enzymatic activity in male rats

Aims

The aim of this study was to determine the effects of sub-chronic aluminum chloride (AlCl₃) on spermatogenesis and testicular enzymatic activity in male rats.

Main methods

Forty Wistar male rats were randomly divided into four groups: control group (CG, 0), low-dose group (LG, 64.18 mg/kg BW AlCl₃), mid-dose group (MG, 128.36 mg/kg BW AlCl₃) and high-dose group (HG, 256.72 mg/kg BW AlCl₃). The rats were orally administered with AlCl₃ for 120 days. At the end of the experiment, the contents of Al, Fe, Cu and Zn, the enzyme activities of testicular acid phosphatase (ACP), succinate dehydrogenase (SDH), lactate dehydrogenase (LDH), lactate dehydrogenase isoenzyme (LDH-x), the sperm count and the sperm malformation rate were examined.

Key findings

The results showed that the Al and Cu contents, sperm count and the enzyme activities of testicular ACP, SDH, LDH and LDH-x decreased, while the Zn and Fe contents and sperm malformation rate increased in AlCl₃-treated rats.

Significance

It suggests that sub-chronic AlCl₃ disorders the balance of trace element and decreases the spermatogenesis and the activities of testicular enzymes, indicating that AlCl₃ has adverse effect on the testicular function in male rats.     

Effects of alpha-chlorohydrin on the male reproductive tissues of the Polynesian rat,Rattus exulans

Abstract

Doses of α-chlorohydrin (‘Epibloc’) were administered by gavage to mature male Polynesian rats (Rattus exulans) at 100, 200, and 300 mg per kg body weight. Animals that survived were sacrificed either 1 day or 7 days later for assessment of epididymal and testicular cytology and sperm viability. Two of 10 animals died 6 days after treatment with 100 mg/kg; 1/6 died within 24 h of treatment with 200 mg/kg, though 6/10 died when left for 7 days; 300 mg/kg was lethal to all 3 rats tested. After 1 day, microscopic lesions were observed in the Initial Segment of the epididymis of 4/6 rats dosed with 100 mg/kg and in all 5 of the 200 mg/kg group; however, in only one animal at the higher dose level was the damage severe enough to cause epithelial exfoliation and potential blockage of the lumen. In all the animals that survived for 7 days testicular and epididymal cytology were normal, and viable spermatozoa were present at all levels of the tract. Autopsies revealed no evidence of gross epididymal lesions in any of the animals that died from the drug. We conclude that although α-chlorohydrin causes minor lesions in the epididymis of this feral species, the damage appears to be reversible in animals that survive an acute dose, and the drug cannot be considered an effective chemosterilant, as distinct from a poison.     

Cell-Cycle-Dependent and -Independent Damage to Rat Haemopoiesis By Hydroxyurea

The generally accepted cell-killing effect of hydroxyurea (HU) on S-phase cells, as well as its potential to arrest cells at the G₁/S boundary, hardly explain its benefit for application in human chronic myelogenous leukaemia. Studies were therefore performed in rat haemopoiesis in order to quantify the cell-killing effect on various phases of the cell cycle. For this purpose, the [³H]thymidine ([³H]TdR) labelling index and the specific activity of [³H]TdR in the DNA-synthesizing fraction of cells were determined after a non-cytoreductive dose of 25 mg/kg HU, as well as a medium cytoreductive dose of 100 mg/kg. Furthermore, flow cytometric DNA histograms and absolute as well as differential cell counts of femoral bone marrow were performed after 100 mg/kg HU. The results indicate a predominant cell kill in G₁ encompassing almost all 2c cells in the proliferative pool, while the S-phase fraction is not even reduced to half its initial value. the specific activity of [³H]TdR in cells synthesizing DNA, as well as the labelling index after HU show an initial dip and a tendency to recovery, as has been observed in many other cell systems. Instead of a complete restoration, however, there is a second depression of these parameters lasting for at least one cell cycle. the results are interpreted as a partly cell-cycle-dependent and partly independent action of HU in this cell system. the independent component may be attributed to the repeatedly described direct interference of HU with DNA. In rat haemopoiesis, therefore, this direct effect of HU on the DNA strands appears to be much more pronounced than in cell-culture systems and other mammalian tissues. In view of these findings, some caution should be taken in using HU for the determination of the S-phase fraction by way of a suicide experiment.     

Comparison of human and mouse sperm chromatin structure by flow cytometry

Human and mouse sperm nuclei obtained by sonication or mechanical agitation of freshly isolated sperm in the presence of anionic detergent were purified through a sucrose gradient and stained with acridine orange (AO); their fluorescence intensity was measured by flow cytometry. The green fluorescence, characteristic of AO binding to DNA by intercalation, was twice lower per unit of DNA for human sperm nuclei than for human peripheral blood lymphocytes. After extraction of basic proteins with 0.08 N HCl, AO binding to DNA increased 3.2-fold for lymphocytes and only 1.3-fold for sperm indicating that, in contrast to somatic cells, the proteins restricting AO binding to DNA are essentially non-extractable from sperm at that low pH. Treatment of human and mouse nuclei with dithiothreitol (DTT), a sulfhydryl reducing agent, and trypsin, removed constraints responsible for the restriction of AO binding. Specifically, as a result of DTT treatment alone there was up to a 20–30% increase of AO binding; upon subsequent addition of trypsin there was a further rapid rise in AO binding up to a final level of approximately 5 times the original AO binding to isolated sperm nuclei. Electron microscopy of DTT-treated human sperm nuclei showed that the reducing agent caused chromatin decondensation to a level whereby 20–30 Å diameter fibers interconnecting chromatin bodies about 30–75 nm in diameter were revealed. Trypsin digestion in the presence of DTT converted the chromatin bodies into a network of fibrous structures about 150 Å in diameter. Both electron microscopy and flow cytometry demonstrated an extremely large intercellular variation among human sperm nuclei in response to DTT and trypsin treatment indicating heterogeneity of chromatin structure. In contrast, AO staining of mouse sperm nuclei increased homogeneously in response to DTT and trypsin treatment.     

Single-strand nuclease action on heat-denatured spermiogenic chromatin.

The aim of this study was to compare the sensitivity of chromatin from representative cellular stages of spermiogenesis to a single-strandeded nuclease after heat denaturation. Thermal denaturation of chromatin was assayed in situ in fixed round, elongating and elongated spermatids and in testicular sperm from mice. Production of single-stranded deoxyribonucleic acid (DNA) at elevated temperatures was monitored by digesting chromatin with endonuclease specific for single-stranded DNA (S1 nuclease), staining the residual DNA with gallocyanin-chrome alum (GAC) and measuring the stain content by absorption cytophotometry. Changes in GCA staining were minimal over the temperature range of 22-90 degrees C in each cell type not exposed to nuclease. Staining of undigested cells decreased progressively with advancing cell maturity. Nuclease had no effect on the GCA content of round spermatids below 60 degrees C, but above this temperature there was a progressive decrease in GCA-stainable chromatin. Both round and elongating spermatid stages showed a significantly greater sensitivity to nuclease digestion than did more mature stages; sperm showed no effects of nuclease action below 80 degrees C. Progressive chromatin condensation and a concomitant decrease in the number of available DNA phosphate groups during spermiogenic cell maturation may be responsible for the observed decline in sensitivity to nuclease and decreased GCA staining. Thermal denaturation of round spermatids labeled with 3H-thymidine produced no change in autoradiographic mean nuclear grain counts, indicating no loss of thymidine-labeled DNA from the slides during denaturation. When round spermatids and sperm were hydrolyzed with hot tricholoroacetic acid before staining, both nuclear GCA content and autoradiograph grain count were partially reduced, indicating incomplete DNA removal. Almost complete loss of Feulgen-stainable material occurred in these cells and may be due to depurination and elimination of Feulgren-reactant aldehyde groups.     

Ethylation pf DNA and protamine by ethyl methanesulfonate in the germ cells of male mice and the relevancy of these molecular targets to the induction of dominant lethals

The molecular dosimetry of ethyl methanesulfonate (EMS) in the germ cells of male mice has been investigated. The mice were injected i.p. with 200 mg/kg of [³H]EMS and the ethylations per sperm head, per deoxynucleotide, and per unit of protamine were then determined over a 2-week period. The ethylations per sperm head closely paralleled the dominant-lethal frequency curve for EMS, reaching a maximum of 5 to 6.5 million ethylations per vas sperm head at 8 to 10 days after treatment. Ethylation of sperm DNA was greatest at 4 h after treatment, with 5.7 ethylations/10⁵ deoxynucleotides, and gradually decreased to 2.2 ethylations/10⁵ deoxynucleotides at 15 days after treatment. The ethylation of sperm DNA did not increase in the germ-cell stages most sensitive to EMS, ans was not correlated with the dominant-lethal frequency curve for EMS. However, ethylation of sperm protamine did increase in the germ-cell stages most sensitive to EMS, and showed an excellent correlation with the incidence of dominant lethals produced by EMS in the germ cells.A model is presented to explain, at a molecular level, how dominant lethals may be induced in mouse germ cells by EMS. Ethylation by cysteine sulfhydryl groups contained in mouse-sperm protamine could block normal disulfidebond formation, preventing proper chromatin condensation in the sperm nucleus. Stresses in the chromatin structure could then eventually lead to chromosome breakage, with resultant dominant lethality.     

Detection of DNA damage in spermiogenic stages of mice treated with enriched uranyl fluoride by alkaline elution

Summary DNA breakage in spermiogenic stages of mice treated with enriched uranyl fluoride (UO₂F₂) was studied using an alkaline elution technique. Mature spermatozoa were sampled from the animal's vas and eluted with a buffer (PH 12.2) at 3-day intervals over a 33-day period after i.p. injection of 2 mg U0₂F₂/kg and always at 36 days after thymidine labeling in the testes. Elution of sperm DNA from treated animals varied with spermiogenic stages. At 12 days after exposure the amount of the elution of sperm DNA was found highest and increased with the increasing U0₂F₂ dose up to 6 mg/kg.     

DNA Segments Sensitive to Single-Strand-Specific Nucleases Are Present in Chromatin of Mitotic Cells

It was observed before that DNAin situin chromatin of mitotic cells is more sensitive to denaturation than DNA in chromatin of interphase cells. DNA sensitivity to denaturation, in these studies, was analyzed by exposing cells to heat or acid and using acridine orange (AO), the metachromatic fluorochrome which can differentially stain double-stranded (ds) vs single-stranded (ss) nucleic acids, as a marker of the degree of DNA denaturation. However, without prior cell treatment with heat or acid no presence of single-stranded DNA in either mitotic or interphase cells was detected by this assay. In the present experiments we demonstrate that DNAin situin mitotic cells, without any prior treatment that can induce DNA denaturation, is sensitive to ss-specific S1 and mung bean nucleases. Incubation of permeabilized human T cell leukemic MOLT-4, promyelocytic HL-60, histiomonocytic lymphoma U937 cells, or normal PHA-stimulated lymphocytes with S1 or mung bean nucleases generated extensive DNA breakage in mitotic cells. DNA strand breaks were detected using fluorochrome-labeled triphosphonucleotides in the reaction catalyzed by exogenous terminal deoxynucleotidyl transferase. Under identical conditions of the cells’ exposure to ss-specific nucleases, DNA breakage in interphase cells was of an order of magnitude less extensive compared to mitotic cells. The data indicate that segments of DNA in mitotic chromosomes, in contrast to interphase cells, may be in a conformation which is sensitive to ss nucleases. This may be a reflection of the differences in the torsional stress of DNA loops between interphase and mitotic chromatin. Namely, greater stress in mitotic loops may lead to formation of the hairpin-loop structures by inverted repeats; such structures are sensitive to ss nucleases. The present method of detection of such segments appears to be more sensitive than the use of AO. The identification of mitotic cells based on sensitivity of their DNA to ss nucleases provides an additional method for their quantification by flow cytometry.     

Iron-induced oxidative DNA damage in rat sperm cells in vivo and in vitro

We investigated whether acute iron intoxication causes oxidative DNA damage, measured in terms of 7-hydro-8-oxo-2′-deoxyguanosine, 8-oxodG, in nuclear DNA in testes and epididymal sperm cells in vivo and in vitro in rats. In addition, we investigated levels of the modified nucleoside in liver and kidney and measured its urinary excretion.

Sperm cells were isolated from the epididymides and the testes cells were isolated after homogenisation. In vitro, the sperm and testes cells were incubated with increasing concentrations of FeCl₂ ranging from 0 to 600 μM. The median (range) levels of 8-oxodG/10⁵ dG in the epididymal sperm cells increased from 0.48 (0.42–0.90) to 15.1 (11.4–17.6) (p < 0.05), whereas the level rose from 0.63 (0.22–0.81) to 8.8 (4.5–11.6) (p < 0.05) at 0 and 600 μM, respectively, in the testicular cells.

In vivo groups of 7–8 rats received 0, 200 or 400 mg iron/kg as dextran i.p. After 24h, epididymal sperm cells, testes, kidneys and liver were collected for analysis. Kidney and sperm DNA showed a significant increase in 8-oxodG in the iron-treated animals. The median (range) values of the 8-oxodG/10⁵ dG in the epididymal sperm cells rose from 0.66 (0.38–1.09) to 1.12 (0.84–5.88) (p < 0.05) at 0 and 400 mg iron/kg, respectively, whereas the values in the testes and liver showed no significant change. In the kidneys the 8-oxodG/10⁵ dG median (range) values were 0.98 (0.73–1.24), 1.21 (1.13–1.69) and 1.34 (1.12–1.66) after 0, 200 and 400 mg iron/kg, respectively (p < 0.05).

The 8-oxodG-excretion rate was measured in 24 h urine before and after iron treatment. The rate of urinary 8-oxodG excretion increased from 129 (104–179) pmol/24 h before treatment to 147 (110–239) pmol/24h after treatment in the group receiving 400 mg iron/kg (p < 0.05).

The results indicate that acute iron intoxication may increase oxidative damage to sperm and kidney DNA.     

Interphase chromatin of human cells with diploid and haploid genomes

A study was made of the chromatin structure of mature sperm cells from healthy males aged 25 to 40 using fluorescent microscopy and acridine orange staining according to the DNP cell thermal denaturation technique modified by the authors. It was shown that normal human sperm cell chromatin melting profiles represent uniform curves with maxima in the following temperature ranges: 43 (+/- 2) degrees, 55 (+/- 1) degrees, 67 (+/- 2) degrees, 77 (+/- 1) degrees, 82 (+/- 0.5) degrees, 89 (+/- 1) degrees, 92 (+/- 2) degrees (P less than 0.01), that are identical to those obtained with lymphocytes of healthy males with certain deviations from the standard normal variant. No heteromorphism was revealed in the sperm cell chromatin. Marked polymorphism in the chromatin structure occurs but at the diploid cell level. A 10-time decrease in the fluorescence of AO bound with sperm cell chromatin as compared to F530 AO bound with lymphocyte chromatin structure of the same individual supports the data on the over condensation of sperm cell nuclear chromatin as compared to that in lymphocytes.     

Functional supersensitivity of CNS α1-adrenoceptors following chronic antidepressant treatment

Chronic but not acute administration (21 days) of desipramine (10 mg/kg), amitriptyline (10 mg/kg) or iprindole (5 mg/kg) enhanced the stimulatory effect of the α₁-adrenergic agonist phenylephrine on the acoustic startle reflex when phenylephrine was infused into the subarachnoid space of the spinal cord. Comparable supersensitivity to phenylephrine also occurred 1 week after selective depletion of norepinephrine in the spinal cord via intrathecal administration of 6-hydroxydopamine. Behavioral supersensitivity to phenylephrine was associated with an increase in the number of ³H-prazosin binding sites following denervation but not following chronic antidepressant treatments. The results indicate that chronic antidepressant treatments may enhance functional α₁-adrenergic transmission through mechanisms different than those following denervation.     

Effect of Arborvitae Seed on Cognitive Function and α7nAChR Protein Expression of Hippocampus in Model Rats with Alzheimer’s Disease

The aim was to investigate the effect of the arborvitae seed on cognitive function and α7-nicotinic acetylcholine receptor (α7nAChR) protein expression of the hippocampus in model rats with Alzheimer’s disease (AD). Thirty-six adult Wistar rats were randomly divided into the control, test, and drug groups. A dose of Aβ_1–40 was injected into the rats’ hippocampus in the test and drug groups and the control rats were injected with the same amount of normal saline. After the model was successful, the rats in the control and test groups were gavaged with sodium carboxymethyl cellulose (500 mg/kg) and the rats in the drug group were gavaged with arborvitae seed powder (500 mg/kg) for 15 days. The Morris water maze test was used for cognitive function. The effect of arborvitae seed on α7nAChR protein immunoreactivity on the hippocampus neurons was studied by the immunohistochemistry method. Behavioral tests showed that the mean escape latencies and search time of the test group were obviously longer than the control and drug groups. The percentage of the search distance of the test group was shorter than that of the control and drug groups. The immunohistochemistry results are as follows: α7nAChR-positive cells and optical density in the hippocampus of the rats in the test group are less than that of the rats in the control and drug groups (all P < 0.01). Arborvitae seed can treat AD by increased expression of α7nAChR.     

Inhibition of EMT6 tumor growth by interference with polyamine biosynthesis ; Effects of α-difluoromethyl- ornithine,an irreversible inhibitor or ornithine decarboxylase

α-Difluoromethylornithine (α-DFMO), an enzyme-activated irreversible inhibitor of ornithine decarboxylase (ODC), retarded the growth rate of EMT6, a murine mammary sarcoma, in tissue culture. When female BALB/_C mice were inoculated subcutaneously with EMT6 cells, administration of α-DFMO as a 3% solution in the drinking water beginning 5 days after tumor inoculation resulted in an 80% inhibition of tumor weight gain by day 27 compared to controls. This treatment regimen, equivalent to 4.4 g α-DFMO/kg/day, decreased tumor ODC activity, stimulated S-adenosyl-L-methionine decarboxylase (SAM-DC) activity and markedly decreased tumoral putrescine and spermidine, but not spermine, concentrations. The tumor growth inhibitory effects of α-DFMO were similar to those obtained with 4 weekly doses of cyclophosphamide (100 mg/kg i.p. beginning on day 6 post-inoculation). The combination of cyclophosphamide plus α-DFMO caused the same or greater inhibition of tumor growth than either treatment alone. When the SAM-DC and diamine oxidase inhibitor, 1,1'-((methylethanediylidene)-dinitrilo) bis (3-amino-guanidine), was added to α-DFMO treatment, tumor SAM-DC activity, putrescine and spermidine concentrations, but not ODC activity, returned to control values and the anti-proliferative effects of α-DFMO were reversed. These results suggest that α-DFMO treatment is an effective non-toxic method of inhibiting tumor growth by a mechanism involving polyamine depletion.