Immunochemical and morphometric features of astrocyte reactivity vs. plaque location in Alzheimer's disease

The quantitative relationship between glial fibrillary acidic protein (GFAP) hyper-reactivity and -amyloid protein (AP) deposition was investigated by double immunoperoxidase labeling of hippocampal and entorhinal cortex sections from five Alzheimer´s disease (AD) cases and five age-matched controls. AP plaques, which were absent in controls, were found in all AD samples, without significant differences in number or perimeter according to their location among the regions studied. In contrast, the mean number of GFAP (+) cells was significantly greater in the hippocampus than in the entorhinal cortex from AD cases (49 vs.39). Although at lower values (30 vs. 20), predominance of astrocyte hyperplasia in hippocampus as compared with entorhinal cortex was also found in control samples. Concomitant astrocyte hypertrophy, as defined by surface density (Sv) values of GFAP-immunoreactive material exceeding those of control means, affected a similar proportion of cells in the hippocampus (73%) and the entorhinal cortex (74%) from AD cases. Since an increased number of GFAP (+) cells in the hippocampus was not accompanied by an increased number and/or perimeter of neighbouring plaques, such differential hyper-reactivity in samples from AD patients, as well as in those with normal aging, seems to depend partially on the regional location of the involved astrocyte.

Immunochemical and morphometric features of astrocyte reactivity vs. plaque location in Alzheimers disease

The quantitative relationship between glial fibrillary acidic protein (GFAP) hyper-reactivity and -amyloid protein (AP) deposition was investigated by double immunoperoxidase labeling of hippocampal and entorhinal cortex sections from five Alzheimer s disease (AD) cases and five age-matched controls. AP plaques, which were absent in controls, were found in all AD samples, without significant differences in number or perimeter according to their location among the regions studied. In contrast, the mean number of GFAP (+) cells was significantly greater in the hippocampus than in the entorhinal cortex from AD cases (49 vs.39). Although at lower values (30 vs. 20), predominance of astrocyte hyperplasia in hippocampus as compared with entorhinal cortex was also found in control samples. Concomitant astrocyte hypertrophy, as defined by surface density (Sv) values of GFAP-immunoreactive material exceeding those of control means, affected a similar proportion of cells in the hippocampus (73%) and the entorhinal cortex (74%) from AD cases. Since an increased number of GFAP (+) cells in the hippocampus was not accompanied by an increased number and/or perimeter of neighbouring plaques, such differential hyper-reactivity in samples from AD patients, as well as in those with normal aging, seems to depend partially on the regional location of the involved astrocyte. (AU)

Long-lasting astrocyte reaction to persistent Junin virus infection of rat cortical neurons.

Immunoperoxidase labeling was performed in histological sections from rat brain harvested during acute (10-30 days), clinically inapparent (90-270 days) and late (450-540 days) stages of Junin virus-induced neurological disease. In frontoparietal cortex, count of viral antigen (+) neurons peaked during the acute period (27.7+/-6.8), dropped within the intermediate (4.8+/-4.0 to 1.4+/-1.1) and increased (7.6+/-4.3) at the onset of the late neurological syndrome. In infected vs. control rats, the number of GFAP (+) astrocytes maximized during the acute stage (19+/-4 vs. 11+/-5), and from the end of the intermediate (27+/-5 vs. 21+/-5) up to the late (37+/-7 vs. 26+/-6) periods. In turn, surface density of GFAP (+) material in infected samples peaked at 0.196+/-0.066, while it failed to exceed 0.090+/-0.043 in controls. Both astrocyte hypertrophy relapsing into chronicity, as depicted by surface density, and astrocyte hyperplasia preceding the onset of the late neurological syndrome, support their pathogenic contribution to disease expression.

Theiler virus-GDVII strain (TMEV-GDVII) infection of cultured astrocytes. An image analysis of its effects on cell activation.

Our original aim was to determine whether dBcAMP-induced activation of cultured astrocytes affected the course of subsequent viral infection. After 2 h exposure of 2-day-old first subculture of mouse astrocytes to dBcAMP 1 mM, cell monolayers grown in glass coverslips of Leighton tubes were inoculated with 10(3) PFU of Theiler virus-GDVII strain (TMEV-GDVII). At 9 days post-infection (pi), viral infectivity persisted in supernatants from dBcAMP-treated cultures, but was no longer detectable in non-stimulated controls. The relatively spared astroglial monolayer at day 1 pi, hardly affected by progressive viral cytolytic effect, was chosen for immunolabeled cell count, whether by viral antigen or GFAP. To this end, 20 fields for each coverslip were digitalized at 250x final magnification. In dBcAMP treated cultures, viral antigen(+) cells were fewer and lower in percentage versus infected cultures lacking stimulation. As regards GFAP staining, stimulation or infection per se induced a greater number and percentage of labeled astrocytes. According to morphometric characterization, such increase was due to a greater number of process-bearing astrocytes. It may be concluded that, regardless of previous dBcAMP treatment, early TMEV-GDVII infection enhanced immunocytochemical and morphological differentiation in cultured astrocytes.

Theiler virus-GDVII strain (TMEV-GDVII) infection of cultured astrocytes. An image analysis of its effects on cell activation

Our original aim was to determine whether dBcAMP-induced activation of cultured astrocytes affected the course of subsequent viral infection. After 2 h exposure of 2-day-old first subculture of mouse astrocytes to dBcAMP 1 mM, cell monolayers grown in glass coverslips of Leighton tubes were inoculated with 10(3) PFU of Theiler virus-GDVII strain (TMEV-GDVII). At 9 days post-infection (pi), viral infectivity persisted in supernatants from dBcAMP-treated cultures, but was no longer detectable in non-stimulated controls. The relatively spared astroglial monolayer at day 1 pi, hardly affected by progressive viral cytolytic effect, was chosen for immunolabeled cell count, whether by viral antigen or GFAP. To this end, 20 fields for each coverslip were digitalized at 250x final magnification. In dBcAMP treated cultures, viral antigen(+) cells were fewer and lower in percentage versus infected cultures lacking stimulation. As regards GFAP staining, stimulation or infection per se induced a greater number and percentage of labeled astrocytes. According to morphometric characterization, such increase was due to a greater number of process-bearing astrocytes. It may be concluded that, regardless of previous dBcAMP treatment, early TMEV-GDVII infection enhanced immunocytochemical and morphological differentiation in cultured astrocytes.

Theiler virus-GDVII strain (TMEV-GDVII) infection of cultured astrocytes. An image analysis of its effects on cell activation

Our original aim was to determine whether dBcAMP-induced activation of cultured astrocytes affected the course of subsequent viral infection. After 2 h exposure of 2-day-old first subculture of mouse astrocytes to dBcAMP 1 mM, cell monolayers grown in glass coverslips of Leighton tubes were inoculated with 10(3) PFU of Theiler virus-GDVII strain (TMEV-GDVII). At 9 days post-infection (pi), viral infectivity persisted in supernatants from dBcAMP-treated cultures, but was no longer detectable in non-stimulated controls. The relatively spared astroglial monolayer at day 1 pi, hardly affected by progressive viral cytolytic effect, was chosen for immunolabeled cell count, whether by viral antigen or GFAP. To this end, 20 fields for each coverslip were digitalized at 250x final magnification. In dBcAMP treated cultures, viral antigen(+) cells were fewer and lower in percentage versus infected cultures lacking stimulation. As regards GFAP staining, stimulation or infection per se induced a greater number and percentage of labeled astrocytes. According to morphometric characterization, such increase was due to a greater number of process-bearing astrocytes. It may be concluded that, regardless of previous dBcAMP treatment, early TMEV-GDVII infection enhanced immunocytochemical and morphological differentiation in cultured astrocytes.(AU)

Host selenium status selectively influences susceptibility to experimental viral myocarditis.

The purpose of the present work was to determine whether dietary selenium (Se) deficiency could influence the injurious effect of human viruses other than Coxsackie virus B3 (CVB3) on mouse heart. Weanling C3H/HeN mice were fed a Se-deficient or Se-adequate diet for 4 wk and then were inoculated intraperitoneally with one of the following viruses: Coxsackie virus B1 (CVB1), echovirus 9 (EV9), Coxsackie virus A9 (CVA9), or herpes simplex 1 (HSV1). Polio virus 1 (PV1) was employed as a negative control. Prior to inoculation, mean serum Se levels were 430 versus 61 ng/mL in adequate versus deficient mice, respectively. Ten days later, hearts were removed and processed by routine histological procedures. Cardiac lesions were scored according to the number and size of myocarditic foci. Significantly greater heart damage resulting from CVB1 and EV9 was observed in Se-deficient than in Se-adequate mice, and the Se status had no influence on CVA9-induced myocarditis. In contrast, heart damage caused by HSV1 was significantly milder in Se-deficient than in Se-adequate mice. Therefore, it may be concluded that the Se status of the murine host selectively influences the degree of viral-induced myocarditic lesions.

Theiler virus-GDVII strain (TMEV-GDVII) infection of cultured astrocytes. An image analysis of its effects on cell activation.

Our original aim was to determine whether dBcAMP-induced activation of cultured astrocytes affected the course of subsequent viral infection. After 2 h exposure of 2-day-old first subculture of mouse astrocytes to dBcAMP 1 mM, cell monolayers grown in glass coverslips of Leighton tubes were inoculated with 10(3) PFU of Theiler virus-GDVII strain (TMEV-GDVII). At 9 days post-infection (pi), viral infectivity persisted in supernatants from dBcAMP-treated cultures, but was no longer detectable in non-stimulated controls. The relatively spared astroglial monolayer at day 1 pi, hardly affected by progressive viral cytolytic effect, was chosen for immunolabeled cell count, whether by viral antigen or GFAP. To this end, 20 fields for each coverslip were digitalized at 250x final magnification. In dBcAMP treated cultures, viral antigen(+) cells were fewer and lower in percentage versus infected cultures lacking stimulation. As regards GFAP staining, stimulation or infection per se induced a greater number and percentage of labeled astrocytes. According to morphometric characterization, such increase was due to a greater number of process-bearing astrocytes. It may be concluded that, regardless of previous dBcAMP treatment, early TMEV-GDVII infection enhanced immunocytochemical and morphological differentiation in cultured astrocytes.

Ovarian influence on gonadotropin and prolactin release in mated rabbits.

In 17beta-estradiol (E)-treated ovariectomized (OVX) rabbits, the coitus-induced luteinizing hormone (LH) surge is only one fourth that in ovarian-intact rabbits. In this study, we determined the pattern of the coitus-induced gonadotropin release, i.e., LH and follicle-stimulating hormone (FSH), in OVX + E animals without or with continuous 3-wk treatment of 20-alphahydroxypregn-4-en-3-one (20alphaP). For positive and negative experimental controls, ovarian-intact rabbits were either mated or sham mated, respectively. The pituitary hormones prolactin (PRL) and growth hormone (GH) were measured to serve as collateral controls for gonadotropins. The addition of continuous 20alphaP in OVX + E does fail to stimulate a coitus-induced LH surge equal in magnitude and duration to the LH surge in ovarian-intact rabbits. Postcoital levels of FSH were greater in OVX + E + 20alphaP animals than those in OVX + E rabbits. Coitus induced a PRL surge in ovarian-intact and OVX + steroid-treated females, but not in mated males, thereby suggesting a gender difference in this neuroendocrine circuit. Neither coitus nor steroids altered plasma GH values in female or male animals. We conclude that chronic administration of neither E nor E + 20alphaP can restore full-scale gonadotropin surges in OVX rabbits, whereas replacement of one or both of these steroids is sufficient for a coitus-induced PRL surge. Moreover, the presented observation that activin stimulates hypothalamic gonadotropin-releasing hormone (GnRH) release suggests a possible involvement of ovarian proteins in the production of a full-scale coitus-induced GnRH/LH surge.

A quantitative approach to correlate astrocyte differentiation and phagocytic activity.

A triple staining procedure (PAP labeling for GFAP, PAS reaction for added yeast cells and hematoxylin for nuclear staining of the whole cell monolayer) had disclosed that Junin virus infection enhanced phagocytic activity by inducing greater astrocyte differentiation. Here, we resorted to a mathematical approach for simultaneous evaluation of astrocyte differentiation and potential phagocytosis. At light microscopy level, the total number of: a) PAS-stained yeast cells, b) PAS-stained yeast cells associated to GFAP-positive astrocytes, c) GFAP-positive astrocytes, and d) total number of GFAP-labeled and non-labeled astrocytes, were counted within the monolayer area delimited by a grid with a total area of 0.01 mm2. As the percentage of PAS-stained yeast cells associated to GFAP-positive astrocytes correlated significantly with the percentage of GFAP-positive astrocytes for the three yeast cell incubation times (24, 48 and 72 h), a mathematical approach involving a so-called beta parameter representing the percentage of differentiated astrocytes capable of taking up 50% of added yeast cells, was developed. Since beta value dropped along yeast cell incubation time, and more markedly in Junin-virus infected samples, a numerical value was thus available to assess enhanced phagocytic activity in astrocytes undergoing differentiation. Therefore, the application of a mathematical approach to cell monolayers subjected to current staining techniques, allows more objective analysis of data provided by cursory visualization at light microscopy level.

Immunocytochemical and morphological effects of short-term stimulation of cultured astrocytes.

Both image analysis at light microscopy level and ultrastructural characterization by transmission electron microscopy were employed to evaluate the differentiation stage in young cultured mouse astrocytes after 1-day exposure to dBcAMP, a chemical compound known to induce cell activation. The aim was to validate an experimental model of stimulated astrocytes preserving the properties of recently seeded cells, thus avoiding the overlapping effects of in vitro aging. Differentiated astrocytes, as evidenced by GFAP labeling by streptavidin-peroxidase, doubled their number in treated cultures (45%) versus controls (23%). In addition, a significant increase in process-bearing astrocytes (elongated and remified forms) to the detriment of immature polygonal astrocytes, was recorded. No noticeable changes were found in cell perimeter, but cell area displayed a significant reduction in labeled surface of astrocytes undergoing morphological differentiation. Concomitantly, electron microscopy showed that radially organized bundles of numerous intermediate filaments compatible with GFAP replaced the few scattered structures observed in control cultures. However, methodological caution is advisable as regards the relevance of this in vitro counterpart of in situ reactive astrocytes, since cell plasticity is recognized to depend on culture conditions. At any rate, present quantitative results demonstrate that GFAP-positive cell percentage and cell area measurement are adequate parameters of early immunocytochemical and morphological differentiation, respectively, and thus contribute to a better histometric characterization of an easily available substrate to discriminate the wide variety of factors involved in CNS response to injury.

A quantitative approach to correlate astrocyte differentiation and phagocytic activity.

A triple staining procedure (PAP labeling for GFAP, PAS reaction for added yeast cells and hematoxylin for nuclear staining of the whole cell monolayer) had disclosed that Junin virus infection enhanced phagocytic activity by inducing greater astrocyte differentiation. Here, we resorted to a mathematical approach for simultaneous evaluation of astrocyte differentiation and potential phagocytosis. At light microscopy level, the total number of: a) PAS-stained yeast cells, b) PAS-stained yeast cells associated to GFAP-positive astrocytes, c) GFAP-positive astrocytes, and d) total number of GFAP-labeled and non-labeled astrocytes, were counted within the monolayer area delimited by a grid with a total area of 0.01 mm2. As the percentage of PAS-stained yeast cells associated to GFAP-positive astrocytes correlated significantly with the percentage of GFAP-positive astrocytes for the three yeast cell incubation times (24, 48 and 72 h), a mathematical approach involving a so-called beta parameter representing the percentage of differentiated astrocytes capable of taking up 50

of added yeast cells, was developed. Since beta value dropped along yeast cell incubation time, and more markedly in Junin-virus infected samples, a numerical value was thus available to assess enhanced phagocytic activity in astrocytes undergoing differentiation. Therefore, the application of a mathematical approach to cell monolayers subjected to current staining techniques, allows more objective analysis of data provided by cursory visualization at light microscopy level.

Immunocytochemical and morphological effects of short-term stimulation of cultured astrocytes.

Both image analysis at light microscopy level and ultrastructural characterization by transmission electron microscopy were employed to evaluate the differentiation stage in young cultured mouse astrocytes after 1-day exposure to dBcAMP, a chemical compound known to induce cell activation. The aim was to validate an experimental model of stimulated astrocytes preserving the properties of recently seeded cells, thus avoiding the overlapping effects of in vitro aging. Differentiated astrocytes, as evidenced by GFAP labeling by streptavidin-peroxidase, doubled their number in treated cultures (45

) versus controls (23

). In addition, a significant increase in process-bearing astrocytes (elongated and remified forms) to the detriment of immature polygonal astrocytes, was recorded. No noticeable changes were found in cell perimeter, but cell area displayed a significant reduction in labeled surface of astrocytes undergoing morphological differentiation. Concomitantly, electron microscopy showed that radially organized bundles of numerous intermediate filaments compatible with GFAP replaced the few scattered structures observed in control cultures. However, methodological caution is advisable as regards the relevance of this in vitro counterpart of in situ reactive astrocytes, since cell plasticity is recognized to depend on culture conditions. At any rate, present quantitative results demonstrate that GFAP-positive cell percentage and cell area measurement are adequate parameters of early immunocytochemical and morphological differentiation, respectively, and thus contribute to a better histometric characterization of an easily available substrate to discriminate the wide variety of factors involved in CNS response to injury.

Cell differentiation increases astrocyte phagocytic activity. A quantitative analysis of both GFAP labeling and PAS-stained yeast cells.

Since efficiency of phagocytic potential in activated astrocytes is still a subject of controversy, an attempt was made to quantify simultaneously phagocytic activity and astrocyte differentiation. Resorting to Junin virus, known to induce astrocyte activation, infected vs control samples of cultured rat astroglial cells were serially harvested up to day 12 post-inoculation (pi), and subjected to a triple staining procedure consisting in immunoperoxidase labeling of GFAP, periodic acid-Schiff (PAS) reaction in added baker's yeast cells and hematoxylin for nuclear staining of the whole cell monolayer. Adopting GFAP labeling as a specific marker of astrocyte differentiation, the immunoprecipitate development over time was measured. Direct calculation of the initial reaction rate was feasible given its linear behavior during the first 10 min, so that GFAP amount was regarded proportional to peroxidase activity. As determined by digital image analysis, mean optical density (MOD) values of GFAP in infected samples increased from 0.618 +/- 0.082 at day 1 pi to 0.825 +/- 0.125 at day 3, leveling off at 1.010 +/- 0.101 as from day 9, while control uninfected samples remained unchanged at roughly 0.6 during the entire observation period. In turn, phagocytosis was quantified by PAS staining densitometry, whose intensity varied according to wall degradation of yeast cells. MOD levels of PAS-stained phagocytized yeast cells were significantly lower (p < 0.05) in infected vs control cultures at 48 and 72 h following their addition to the astroglial monolayer. According to simultaneous quantification of two components of astrocyte response to viral infection, it is concluded that phagocytic activity increases with astrocyte differentiation.

Cell differentiation increases astrocyte phagocytic activity. A quantitative analysis of both GFAP labeling and PAS-stained yeast cells.

Since efficiency of phagocytic potential in activated astrocytes is still a subject of controversy, an attempt was made to quantify simultaneously phagocytic activity and astrocyte differentiation. Resorting to Junin virus, known to induce astrocyte activation, infected vs control samples of cultured rat astroglial cells were serially harvested up to day 12 post-inoculation (pi), and subjected to a triple staining procedure consisting in immunoperoxidase labeling of GFAP, periodic acid-Schiff (PAS) reaction in added bakers yeast cells and hematoxylin for nuclear staining of the whole cell monolayer. Adopting GFAP labeling as a specific marker of astrocyte differentiation, the immunoprecipitate development over time was measured. Direct calculation of the initial reaction rate was feasible given its linear behavior during the first 10 min, so that GFAP amount was regarded proportional to peroxidase activity. As determined by digital image analysis, mean optical density (MOD) values of GFAP in infected samples increased from 0.618 +/- 0.082 at day 1 pi to 0.825 +/- 0.125 at day 3, leveling off at 1.010 +/- 0.101 as from day 9, while control uninfected samples remained unchanged at roughly 0.6 during the entire observation period. In turn, phagocytosis was quantified by PAS staining densitometry, whose intensity varied according to wall degradation of yeast cells. MOD levels of PAS-stained phagocytized yeast cells were significantly lower (p < 0.05) in infected vs control cultures at 48 and 72 h following their addition to the astroglial monolayer. According to simultaneous quantification of two components of astrocyte response to viral infection, it is concluded that phagocytic activity increases with astrocyte differentiation.

Opiatergic influence on gonadotropin-releasing hormone and luteinizing hormone release during the macaque menstrual cycle.

Concomitant fluctuations in median eminence perfusate GnRH and plasma LH occur in rhesus macaques during the periovulatory period and after ovariectomy. The association between GnRH and LH pulses during the follicular and luteal phases of the monkey menstrual cycle is less clearly defined. However, observed LH patterns suggest higher amplitude and slower pulses of GnRH in the luteal than in the follicular phase of the menstrual cycle. The present studies were planned to compare the GnRH/LH patterns in individual monkeys by simultaneous push-pull perfusion (PPP) and blood sampling during different ovarian steroid milieus. In the initial trial, placement of two push-pull cannulae (PPCs) in the median eminence and a jugular vein catheter caused immediate loss of regular menstrual cycles in 3 monkeys, although cycles resumed over 3-6 mo postoperatively. After the return of normal reproductive cycles, PPP was performed for 12 h on either Day 7, 8, or 9 of the luteal phase. The results showed an unexpected and profound decline in LH and progesterone (P4) concentrations during the initial 4 h. No pulses of LH or P4 were observed in the remaining 8 h. All 3 monkeys exhibited menstrual bleeding 2-3 days after PPP. In subsequent trials, we continuously infused the opioid receptor antagonist nalmefene (Nmf, 1 mg/h, i.v.), starting the fourth day after PPC implantation into 11 monkeys. Menstrual cycles with accompanying fluctuations of circulating estradiol-17 beta (E2) and P4 returned in less than 40 days in these macaques and continued without further Nmf treatment. Trials of 12-h PPP/blood sampling were performed during the follicular phase with (n = 4) or without (n = 4) Nmf, and during the luteal phase with (n = 6) or without (n = 3) Nmf. Endocrine data from the 3 animals without Nmf during the luteal phase were combined with the hormonal values that were obtained in the initial trial because all 6 animals exhibited similar GnRH, LH, and P4 profiles, i.e., low levels and infrequent or absent pulses. Treatment with Nmf during luteal sampling enhanced hypothalamic GnRH secretion (> 10-fold increase in mean GnRH levels over those without Nmf) and reinitiated distinctive serum LH and P4 pulses. In contrast, patterns of hypothalamic GnRH and serum LH during the follicular phase were similar with or without Nmf treatment. These GnRH/LH profiles consisted of low-amplitude hourly pulses. Collectively, the observations suggest that stress-induced activation of opiatergic neurons can inhibit the GnRH pulse generator and that these neuronal systems are more sensitive to such inhibition in the presence of elevated levels of circulating P4. However, our observation that Nmf accelerated the reinstatement of ovarian cycles after surgery, when circulating E2 and P4 were very low, suggests that GnRH secretions are influenced by activation of different opioid receptor subtypes in response to different stresses. Some of these GnRH/opioid interactions are independent of P4.