Sterically stabilized liposomes bearing anti-HLA-DR antibodies for targeting the primary cellular reservoirs of HIV-1.

The ability of liposomes bearing anti-HLA-DR Fab' fragments at the end termini of polyethyleneglycol chains (sterically stabilized immunoliposomes) to target HLA-DR expressing cells and increase the accumulation of liposomes into lymphoid organs has been evaluated and compared to that of conventional liposomes, sterically stabilized liposomes and conventional immunoliposomes after a single subcutaneous injection to mice. The accumulation of sterically stabilized liposomes in lymph nodes was higher than that of conventional liposomes. Sterically stabilized immunoliposomes accumulated much better than conventional immunoliposomes in all tissues indicating that the presence of PEG has an important effect on the uptake of immunoliposomes by the lymphatic system. Fluorescence microscopy studies showed that sterically stabilized liposomes are mainly localized in macrophage-rich areas such as the subcapsular region of lymph nodes and in the red pulp and marginal zone of the spleen. In contrast, sterically stabilized immunoliposomes mostly accumulated in the cortex in which follicles are located and in the white pulp of the spleen. As the human HLA-DR determinant of the major histocompatibility complex class II is expressed on activated CD4+ T lymphocytes and antigen presenting cells such as monocyte/macrophages and dendritic cells, known as the cellular reservoirs of HIV-1, liposomes bearing anti-HLA-DR antibodies constitute an attractive approach to concentrate drugs in HIV-1 reservoirs and improve their therapeutic effect.

Targeting lymph nodes with liposomes bearing anti-HLA-DR Fab' fragments.

The ability of liposomes bearing anti-HLA-DR Fab' fragments to target cells expressing the human HLA-DR determinant of the major histocompatibility complex class II (MHC-II) has been evaluated and compared to that of conventional liposomes. Anti-HLA-DR immunoliposomes did not bind to HLA-DR-negative cells. In contrast, a high level of binding was observed following incubation of immunoliposomes with cells bearing important levels of human HLA-DR. The accumulation of conventional and murine anti-HLA-DR immunoliposomes in different tissues has been investigated following a single subcutaneous injection given in the upper back of C3H mice. Anti-HLA-DR immunoliposomes resulted in a much better accumulation in the cervical and brachial lymph nodes when compared to conventional liposomes. The accumulation in the liver was similar for both liposomal preparations, whereas an approximately twofold decrease in accumulation was observed for immunoliposomes in the spleen. Given that HLA-DR surface marker is expressed on monocyte/macrophages and activated CD4+ T lymphocytes, the primary cellular reservoirs of the human immunodeficiency virus (HIV), the use of liposomes bearing surface-attached anti-HLA-DR could constitute a convenient strategy to more efficiently treat this debilitating retroviral disease. Moreover, the reported incorporation of high amounts of host-encoded HLA-DR proteins by HIV particles renders the use of liposomes bearing anti-HLA-DR antibodies even more attractive.

Nephrotoxicity of amphotericin B in rats: effects of the time of administration.

Amphotericin B is a potentially nephrotoxic agent used for the treatment of severe mycoses and numerous fungal infections. Temporal variation in the nephrotoxicity of amphotericin B was studied in rats maintained on a light-dark period of 14 hrs of light and 10 hrs of darkness (light on: 06h00). Subgroups of animals were treated with a single daily i.p. dose of either 5% dextrose or amphotericin B (10 mg/kg/day) given at either 07h00, 13h00, 19h00 or 01h00 for 4 and 10 days. On day 4, no significant difference was observed in any parameter studied. On day 10, the cellular regeneration ([3H]-thymidine incorporation into DNA of renal cortex)(p<0.01), BUN levels (p<0.05), serum creatinine (p<0.05), and accumulation of amphotericin B in the renal cortex (p<0.05) were significantly higher when animals were treated with similar subcellular localization of amphotericin B in the proximal tubular cells of the renal cortex. These results showed a temporal variation in the nephrotoxicity of amphotericin B (peak toxicity occurred at 07h00) which is different from that of other nephrotoxic antibiotics such as aminoglycosides.

Nephrotoxicity of low doses of tobramycin in rats: effect of the time of administration.

The circadian and the circannual variations of the nephrotoxicity of tobramycin were studied in female Sprague-Dawley rats. Animals were maintained on a light-dark period of 14/10 hrs (light on: 06h00 to 20h00). They were injected once daily for 4 and 10 days with saline or tobramycin at a dose of 40 mg/kg/day i.p. at either 08h00, 14h00, 20h00 and 02h00, in April 1991, July 91, October 91, January 92. In April 91, tobramycin injected at 14h00 during 10 days induced a significant increase of [3H]-thymidine incorporation into DNA of renal cortex as compared to other groups (p < 0.01): toxicity was highest at 14h00 and lowest at 02h00. No temporal change was observed in the renal cortical accumulation of tobramycin, and in serum creatinine after the 4 or 10 days of treatment. In experiments done in April, July and October 1991 and in January 1992, no circannual variation was found in tobramycin cortical levels but peaks of toxicity were observed at 02h00 in April and October 1991 and at 14h00 in July 1991 and January 1992. There was no linear correlation between the toxicity and the tobramycin accumulation in the renal cortex (r = 0.21). The data suggest that the circadian changes in tobramycin toxicity are due to temporal changes in the susceptibility of renal cells to tobramycin.

Reducing chorioretinal viral counts with intravitreal foscarnet injections in a rabbit model of Herpes simplex virus type-1 retinitis.

The efficacy of intravitreal foscarnet injections was evaluated in a rabbit model of Herpes simplex virus type-1 (HSV-1) retinitis. In untreated infected animals, viral titration revealed that the optic chiasm, vitreous and chorioretina were positive for HSV-1. On the other hand, foscarnet treatment significantly decreased the viral count in the chorioretina when compared to the untreated group. Immunolocalization of HSV in untreated infected animals clearly showed infected cells in the outer and inner layers of the retina and also in the ciliary body of the eye. Clinical examination by indirect ophthalmoscopy indicated an absence of optic nerve congestion and a lower level of vitritis in foscarnet treated animals compared to the untreated group. It is concluded that intravitreal injections of foscarnet reduced the viral titer in the chorioretina in a rabbit model of HSV-1 retinitis. This route of administration might be valuable for the treatment of CMV retinitis in AIDS patients with sight threatening lesions or intolerance to intravenous anti-CMV drugs.

Subcellular distribution of gentamicin in proximal tubular cells, determined by immunogold labeling.

The subcellular distribution of gentamicin in rat renal proximal tubular cells was evaluated by immunogold labeling. The distribution of the drug was monitored from 10 min to 10 days following single (40 mg/kg of body weight) and multiple (5 and 20 mg/kg/12 h) injections of gentamicin. Animals were killed on day 11, and cubes of renal cortex tissue were fixed overnight in cold phosphate-buffered glutaraldehyde (0.5%), dehydrated in ethanol, and embedded in Araldite 502 epoxy resin. Ultrathin sections were made and incubated with sheep antigentamicin and then with protein A-gold (15 nm) complex. At 10 min after a single injection, the labeling was found over the brush border membrane and over the membranes of endocytic apical vesicles of proximal tubular cells. After 1 h, a similar distribution was observed and the labeling was also seen over small lysosomes located close to the brush border membrane. At 24 h, gold particles were found over large lysosomes of proximal tubular cells. Following 10 days of treatment, lysosomes of proximal tubular cells were densely labeled with gold particles. The labeling was distributed uniformly over the lysosomes, although a lower density of labeling was observed over the myeloid bodies inside the lysosomes. Necrotic proximal tubular cells showed labeling over intact lysosomes and also in the cytoplasms of the cells, in the mitochondria, and in the nucleoli. The various control experiments demonstrated the high specificity of these results. The present immunocytochemical study better documents the subcellular disposition of gentamicin in proximal tubular cells, as previously evaluated by subcellular fractionation and autoradiography. This technique will be useful for better understanding the relationship between drug disposition and drug-induced toxicity.

Effect of age on the intracortical accumulation kinetics of gentamicin in rats.

We have evaluated the influence of age on the intracortical accumulation kinetics of gentamicin in conscious male rats by using a short-term infusion model. Animals were infused with gentamicin over a 6-h period and achieved individual steady-state levels in serum ranging from 0.5 to 12 micrograms/ml. Young rats were about 3 months old, and old rats were about 6 months old. The steady-state elevation of concentrations of gentamicin in serum was associated with a linear increase of the cortical concentrations in both groups. However, the accumulation of gentamicin was lower in the renal cortex of the old rats than in the renal cortex of the young rats. We conclude that the intrarenal uptake of gentamicin is modified during aging. Further studies must be undertaken to better understand the role of age on the mechanism of uptake and the toxicity of aminoglycosides.

Subcellular localization of tobramycin and vancomycin given alone and in combination in proximal tubular cells, determined by immunogold labeling.

The subcellular localization of tobramycin and vancomycin in the renal cortices of rats was determined with ultrathin sections by immunogold labeling. Four groups of four rats each were treated for 10 days with saline (NaCl, 0.9%), tobramycin at dosages of 20 mg/kg of body weight per 12 h intraperitoneally, vancomycin at dosages of 25 mg/kg/12 h subcutaneously, or the combination tobramycin-vancomycin. On day 11, the animals were killed, and cubes of renal cortex were fixed overnight in phosphate-buffered glutaraldehyde (0.5%), dehydrated in ethanol, and embedded in Araldite 502 resin. Ultrathin sections were made and incubated with sheep antitobramycin antibody followed by protein A-gold (15-nm diameter) complex or rabbit antivancomycin antibody followed by gold (30-nm diameter)-labeled goat anti-rabbit antibody. For the double labeling, incubations were made on opposite sides of the grid. Tobramycin was detected over the lysosomes of proximal tubular cells, but the labeling was concentrated into small areas in the matrix of the lysosomes. Vancomycin was seen over the lysosomes of proximal tubular cells and was distributed uniformly throughout the matrix of the lysosomes. In rats treated with tobramycin-vancomycin, both drugs were still detected in lysosomes of proximal tubular cells. It is concluded that tobramycin and vancomycin accumulate in lysosomes of proximal tubular cells throughout 10 days of treatment and that vancomycin has no effect on the subcellular distribution of tobramycin.

Age-dependent gentamicin experimental nephrotoxicity.

The nephrotoxic potential of gentamicin was compared in adult (2-month-old) and old (24-month-old) female Sprague-Dawley rats in a model of short-term infusion. Animals were infused over a 12-hr period with saline or with gentamicin achieving steady-state serum levels of 56.1 +/- 11.7 (n = 18) and 59.8 +/- 14.7 (n = 17) micrograms/ml +/- S.D. (N.S.) in the adult and the old rats, respectively. Animals were sacrificed 2 hr (day 0), 4 days and 8 days after the end of the infusion. The renal cortical levels of gentamicin at day 0 (2 hr after the end of the infusion) were 1161 +/- 120 and 1125 +/- 275 micrograms/g of tissue +/- S.D. (N.S.) in the adult and the old rats, respectively. Tissue levels of gentamicin were lower in both gentamicin-treated groups on day 4 and 8 as compared with day 0 (P less than .05). The sphingomyelinase activity (measure of the lysosomal phospholipidosis) was significantly inhibited in the renal cortex of the adult and the old rats, but no significant difference was observed between these two groups. The in vivo [3H]thymidine incorporation into DNA, expressed as the percentage of the values measured in each age-matched control group, was significantly lower in the old animals as compared with that measured in the adult rats (P less than .05). No significant difference was observed in the renal function of adult rats, but a significant increase in the serum creatinine levels was measured in the old rats on day 4 of the experiment (248% of the control value, P less than .01).(ABSTRACT TRUNCATED AT 250 WORDS)

Subcellular distribution of daptomycin given alone or with tobramycin in renal proximal tubular cells.

Previous studies in experimental animals showed that daptomycin, a lipopeptide antibiotic, protects against aminoglycoside nephrotoxicity (C. A. Wood, H. C. Finkbeiner, S. J. Kohlhepp, P. W. Kohnen, and D. N. Gilbert, Antimicrob. Agents Chemother. 33:1280-1285, 1989; D. Beauchamp, M. Pellerin, P. Gourde, M. Pettigrew, and M. G. Bergeron, Antimicrob. Agents Chemother. 34:139-147, 1990). In order to better understand the mechanism involved in this protective effect, the subcellular distribution of daptomycin was investigated in the proximal tubular cells of animals treated with daptomycin alone or in combination with tobramycin. A first group of female Sprague-Dawley rats received a single intravenous injection of daptomycin at a dose of 100 mg/kg of body weight and were killed at 10 min, 1 h, or 24 h after the injection. Other groups of rats were treated during 10 days with saline (NaCl, 0.9%), tobramycin at dosages of 20 mg/kg/12 h, daptomycin at dosages of 10 mg/kg/12 h, or the combination tobramycin-daptomycin at the same dosages. At the time of sacrifice, the renal cortex of the right kidney of each animal was dissected, and small blocks of tissue were fixed, dehydrated, and embedded in Araldite 502 epoxy resin. The subcellular distribution of daptomycin and tobramycin was determined on ultrathin sections by immunogold labeling. Ten minutes after the injection of daptomycin alone, gold particles were seen over the brush border membrane and on the membranes of the endocytic vacuoles of proximal tubular cells. One hour after the injection, a similar distribution was seen and numerous gold particles were found over the lysosomes of proximal tubular cells. The results suggest that daptomycin might protect against aminoglycoside nephrotoxicity by interfering with the interaction between the aminoglycoside and phospholipids inside the lysosomes of proximal tubular cells.

Effects of daptomycin and vancomycin on tobramycin nephrotoxicity in rats.

Daptomycin is a new biosynthetic antibiotic which belongs to a new class of drugs known as lipopeptides. The objective of this study was to evaluate the effects of daptomycin and vancomycin on tobramycin-induced nephrotoxicity. Female Sprague-Dawley rats were treated during 4 and 10 days with either saline (NaCl, 0.9%) or tobramycin at doses of 4 and 40 mg/kg per day (given every 12 h [q12h] intraperitoneally). Each treatment was combined with saline, daptomycin at a dose of 20 mg/kg per day (given q12h subcutaneously), and ancomycin at a dose of 50 mg/kg per day (given q12h subcutaneously). Daptomycin and vancomycin had no effect on the intracortical accumulation of tobramycin. Daptomycin did not accumulate in renal tissue even after 10 days of treatment. Tobramycin given at a dose of 40 mg/kg per day during 10 days induced a significant inhibition of sphingomyelinase activity in the renal cortex (P less than 0.01) and increased cellular regeneration (P less than 0.01), as measured by the incorporation of [3H]thymidine into DNA of the renal cortex. These changes were minimal when daptomycin was combined with tobramycin. Histologically, signs of tobramycin toxicity were also less severe in the presence of daptomycin. The intracortical accumulation of vancomycin was not modified by tobramycin. The sphingomyelinase activity was significantly more inhibited (P less than 0.01) when vancomycin was associated with tobramycin (4 and 40 mg/kg) without affecting the rate of [3H]thymidine incorporation into DNA. Histologically, signs of tobramycin toxicity were not affected by vancomuycin, but the cellular vacuolizations which were also observed in vancomycin-treated animals were still present in the proximal tubular cells of animals that were treated with the combination vancomycin-tobramycin. This study strongly suggests that daptomycin protects animals from tobramycin-induced nephrotoxicity but that vancomycin may enhance the effect of tobramycin. We conclude that daptomycin is safe and protects kidney cells from tobramycin-induced nephrotoxicity.

Endotoxin increases the nephrotoxic potential of gentamicin and vancomycin plus gentamicin.

To assess the possible role of endotoxin as an amplification factor for experimental nephrotoxicity due to gentamicin plus vancomycin, rats were given continuous intravenous (iv) endotoxin or saline followed by twice-daily intraperitoneal (ip) saline, vancomycin (20 mg/kg ip), gentamicin (15 mg/kg subcutaneously), or both gentamicin and vancomycin. After 5 or 8 days of treatment, functional and histologic parameters of renal function were evaluated: cortical drug levels, tritiated thymidine incorporation into cellular DNA, creatinine clearance, and appearance by light and electron microscopy. In animals not given endotoxin, only rats that received gentamicin plus vancomycin developed measurable abnormalities. Endotoxin did not cause nephrotoxicity in vancomycin-treated rats. However, in endotoxin-infused rats treated with gentamicin or gentamicin plus vancomycin for 8 days, the increase in blood urea nitrogen, decrease in creatinine clearance, and rise in renal cortical DNA synthesis were more severe than those in non-endotoxin-infused rats (P less than .01). In these studies, endotoxin amplified the nephrotoxic potential of gentamicin alone and gentamicin plus vancomycin.

Prolonged endotoxemia enhances the renal injuries induced by gentamicin in rats.

The aim of this study was to evaluate the role of chronic endotoxemia in the nephrotoxicity of gentamicin (GM). Saline or Escherichia coli lipopolysaccharide (LPS) was administered to conscious rats by continuous intravenous perfusion (1 mg/kg per day for 7 days) from a subcutaneously implanted osmotic pump. Twenty-four hours after surgery (day zero), treatment with saline or GM (15 mg/kg; intraperitoneally, twice a day) was started for 5 days. Levels of LPS in plasma measured by Limulus amoebocyte lysate activity decreased significantly from days 1 through 8. At days 5 and 8, the cortical concentrations of GM were higher in the LPS-perfused and GM-treated group (LPS plus GM) than they were in the saline-perfused and GM-treated group (saline plus GM) (P less than 0.05). Blood urea nitrogen and serum creatinine remained at normal levels throughout the experiment. A significant increase of cortical tubular cell regeneration was observed in the LPS plus GM animals as compared with regeneration observed in the other groups (saline plus saline, LPS plus saline, and saline plus GM), as measured by [3H]thymidine incorporation into DNA. Moreover, histopathological nephrotoxicity scores showed a synergistic toxic effect between LPS and GM. These results demonstrate that chronic perfusion of low doses of LPS potentiates the nephrotoxicity of GM.

L-651,392, a potent leukotriene inhibitor, controls inflammatory process in Escherichia coli pyelonephritis.

In this study, the relationship between leukotrienes, peritubular cell infiltration with polymorphonuclear cells (PMNs) and renal tubular damage was investigated in a rat model of acute ascending pyelonephritis. Infection was induced by the injection of 10(5) CFU of Escherichia coli into the bladder and occlusion of the left ureter for 24 h. Treatment of infected animals was started 24 h after the induction of pyelonephritis with either hydrocortisone (25 mg/kg of body weight per day), the leukotriene inhibitor L-651,392 (10 mg/kg/day), or the vehicle of L-651,392 and was maintained for 5 days. At the end of treatment, the animals were killed, serum was collected, and both kidneys were removed for colony counts and histopathology. Renal function was evaluated by the measurement of blood urea nitrogen levels and creatinine clearance. The numbers of PMNs and mononuclear cells (MNs) in the cortex and medulla were recorded for all groups on plastic sections done from the left kidney. Infection alone (vehicle of L-651,392) resulted in intensive interstitial infiltration and a severe tubular destruction in the cortex. Treatment with hydrocortisone did not prevent PMN migration and tissue damage. By contrast, treatment with L-651,392 resulted in a significant reduction in PMNs (P < 0.001 in comparisons with all other groups) and greater preservation of the tubular structure despite identical bacterial counts than in the group receiving hydrocortisone. We conclude that L-651,392 prevents inflammatory cells from reaching the site of infection and protects the kidney from tubular damage associated with inflammation during pyelonephritis. Inhibitors of leukotrienes should be further investigated for their potential benefit as adjuvants to antibiotherapy in the treatment of pyelonephritis.

Effect of beta-lactams on peptidoglycan metabolism of Haemophilus influenzae grown in animals.

We have examined bacterial determinants that influence beta-lactam activity in Haemophilus influenzae cells cultivated in a system that reproduces in vivo growth conditions. Bacteria grown in diffusion chambers were recovered from the peritoneal cavities of rats, and their cell properties were compared with those of bacteria grown in broth cultures by various tests performed in vitro. The rate of peptidoglycan synthesis was measured as the incorporation of [14C]alanine into cell wall material in the presence of chloramphenicol. The total incorporation of [14C]alanine into peptidoglycan was markedly increased in cells grown in rats prior to the assay but was efficiently reduced by the beta-lactams. The extent of cross-linking was lower in the peptidoglycan of in vivo-grown bacteria, as estimated by sodium dodecyl sulfate- to trichloroacetic acid-insoluble radioactive cell wall material ratios. A whole-cell labeling assay with 125I-penicillin was used to characterize the penicillin-binding proteins (PBPs). Four PBPs showed a striking reduction in the binding of the labeled penicillin in cells grown in rats. Such changes resembled the PBP alterations seen in beta-lactamase-negative clinical strains that were resistant to the beta-lactams. Although ampicillin and moxalactam showed delayed inhibitory activities in vitro for cells collected from rats, cells recovered from beta-lactam-treated rats showed evidence of antibiotic effectiveness (binding of the beta-lactams to PBPs in vivo and altered morphology), and the killing of cells exposed to antibiotics in broth or in peritoneal fluid was equally good. Finally, the frequencies of spontaneous resistance or tolerance to ampicillin or moxalactam were estimated, and there was no significant difference for in vitro- or in vivo-grown cells. These data demonstrated that the cultivation of H. influenzae in animals created changes in PBPs and the overall peptidoglycan metabolism. Such alterations did not impair the bactericidal activities of the beta-lactams, although they resulted in delayed bacterial inhibition, a phenomenon that may have important consequences in antibiotherapy.

Modification in penicillin-binding proteins during in vivo development of genetic competence of Haemophilus influenzae is associated with a rapid change in the physiological state of cells.

By using whole-cell labeling assay with 125I-penicillin V, we observed a reduction in the binding of the radiolabeled beta-lactam to four or five penicillin-binding proteins (PBPs) in Haemophilus influenzae cells cultivated under specific conditions. PBPs 3A, 3B, 4, and 6 were altered after the growth of bacteria in diffusion chambers implanted in the peritoneal cavity of rats. PBP 2 was also modified when cells were cultivated in human cerebrospinal fluids. Because this observation may have important consequences on the efficacy of beta-lactams during antibiotic therapy, we characterized the physiological state of bacteria cultivated in animals in the hope of explaining how such important changes in cell properties develop in vivo. Since the development of natural genetic competence occurs at the stationary phase of growth in H. influenzae, we used a DNA transformation assay to evaluate the physiological state of bacteria grown in diffusion chambers implanted in rats. Chromosomal DNA isolated from an antibiotic-resistant donor strain was mixed with bacteria in diffusion chambers. At different times during a 5-h incubation period, recipient bacteria were collected from the chambers, CFU were determined by plate counting, and antibiotic-resistant transformants were isolated on selective plates. Genetic competence rapidly developed in cells grown in rats, and the frequency of transformation by test DNA was elevated. Electron microscopy revealed an irregular cell shape and blebs at the surface of bacteria cultivated in animals and in cerebrospinal fluids. In an attempt to induce a similar physiological state in vitro, we supplemented broth cultures with cyclic AMP or synchronized cultures by a nutritional upshift. No changes in PBPs were observed with supplemental cyclic AMP or during a single cell cycle. Finally, a reduction in the affinity of PBPs for 125I-penicillin V identical to that observed in bacteria grown in rats was observed in cells isolated from the stationary phase of growth in vitro. These results clearly indicate that H. influenzae cells grown in animals undergo a rapid change to a physiological state similar to that found in late-stationary-phase cultures in vitro. This observation indicates that the rational design of future and improved antibiotic therapy of H. influenzae infections should consider cell properties of slow-growing or latent bacteria.

In vivo toxicity of foscarnet and zidovudine given alone or in combination.

The toxicities of foscarnet (PFA) and zidovudine (AZT) given alone or in combination have been investigated in mice. PFA administered at a dose of 500 mg/kg/day and AZT at a dose of 400 mg/kg/day for 17 days caused clear hematotoxicity and nephrotoxicity. Each drug alone showed little hematotoxicity, but using a combination of both drugs significantly and dramatically decreased RBC (approximately 50%), Hb (approximately 43%), and hematocrit (approximately 43%) and increased platelets (approximately 45%) on Day 11 of treatment. It seems that there is a synergistic or at least an additive effect between PFA and AZT in terms of red blood cell toxicity. Surprisingly, AZT significantly increased serum creatinine levels on Days 5 and 11 of treatment (up to 40% increase), whereas PFA was less toxic (only approximately 17% increase on Day 5 of treatment). Using a combination of the two drugs, PFA seems to reduce the nephrotoxic effect of AZT on Day 11 of treatment. None of the treatments had any effect on BUN. At a lower dose level of 340 mg PFA/kg/day and 270 mg AZT/kg/day for 15 days there was hematotoxicity (much less evident than that at the higher dose level), but no nephrotoxicity. Electron microscopic examination of the renal cortex of animals from the experiments testing the higher dose levels revealed a clear vacuolization in proximal tubules and necrosis of mitochondria in distal tubules. These effects were more striking with the combination and less evident with PFA or AZT alone. In conclusion, even though we have used a high dose of AZT, there was synergistic/additive hematotoxicity. The combination was less nephrotoxic, only on Day 11 of treatment, than either of these agents used alone although histopathology, at the time of euthanization, showed more severe damage.

Infection of primary human monocytes by Epstein-Barr virus.

Previous studies have reported that infection of monocytes by viruses such as cytomegalovirus and human immunodeficiency virus weakens host natural immunity. In the present study, we demonstrated the capability of Epstein-Barr virus (EBV) to infect and replicate in freshly isolated human monocytes. Using electron microscopy analysis, we observed the presence of EBV virions in the cytoplasm and nuclei of approximately 20% of monocytes. This was confirmed by Southern blot analysis of EBV genomic DNA sequences in isolated nuclei from monocytes. Infection of monocytes by EBV leads to the activation of the replicative cycle. This was supported by the detection of immediate-early lytic mRNA BZLF-1 transcripts, and by the presence of two early lytic transcripts (BALF-2, which appears to function in DNA replication, and BHRF-1, also associated with the replicative cycle). The late lytic BcLF-1 transcripts, which code for the major nucleocapsid protein, were also detected, as well as EBNA-1 transcripts. However, attempts to detect EBNA-2 transcripts have yielded negative results. Viral replication was also confirmed by the release of newly synthesized infectious viral particles in supernatants of EBV-infected monocytes. EBV-infected monocytes were found to have significantly reduced phagocytic activity, as evaluated by the quantification of ingested carboxylated fluoresceinated latex beads. Taken together, our results suggest that EBV infection of monocytes and alteration of their biological functions might represent a new mechanism to disrupt the immune response and promote viral propagation during the early stages of infection.

Efficacies of topical formulations of foscarnet and acyclovir and of 5-percent acyclovir ointment (Zovirax) in a murine model of cutaneous herpes simplex virus type 1 infection.

The topical efficacies of foscarnet and acyclovir incorporated into a polyoxypropylene-polyoxyethylene polymer were evaluated and compared to that of 5% acyclovir ointment (Zovirax) by use of a murine model of cutaneous herpes simplex virus type 1 infection. All three treatments given three times daily for 4 days and initiated 24 h after infection prevented the development of the zosteriform rash in mice. The acyclovir formulation and the acyclovir ointment reduced the virus titers below detectable levels in skin samples from the majority of mice, whereas the foscarnet formulation has less of an antiviral effect. Reducing the number of treatments to a single application given 24 h postinfection resulted in a significantly higher efficacy of the formulation of acyclovir than of the acyclovir ointment. Acyclovir incorporated within the polymer was also significantly more effective than the acyclovir ointment when treatment was initiated on day 5 postinfection. The higher efficacy of the acyclovir formulation than of the acyclovir ointment is attributed to the semiviscous character of the polymer, which allows better penetration of the drug into the skin.

Epstein-Barr virus infects and induces apoptosis in human neutrophils.

The role of neutrophils during Epstein-Barr virus (EBV) infection is not known. Disruption of the initial and nonspecific immune response may favor the spread of EBV infection. We have previously shown that EBV interacts with human neutrophils and modulates protein expression. In this study we have investigated the ability of EBV to infect neutrophils. Electron microscopy studies showed penetration of virus and its subsequent localization to the nucleus. The presence of viral genomes in isolated nuclei from neutrophils was also shown by polymerase chain reaction (PCR). Expression of viral transcripts like EBNA-2 (Epstein-Barr nuclear antigen-2) and ZEBRA (BamHI Z EBV replication activator) was not detected by reverse transcriptase (RT)-PCR, suggesting that EBV does not seem to establish a latent or a lytic infection in neutrophils. However, at 20 hours post-EBV infection, 77% of cells were apoptotic as compared to 22% in uninfected cell cultures, as evaluated by flow cytometry. This EBV-induced apoptosis was prevented by the addition of granulocyte-macrophage colony-stimulating factor to the cell cultures. Apoptotic cell death seems to implicate the Fas/Fas ligand (L) pathway, as reflected by an increase of Fas/Fas L expression on neutrophils treated with EBV and an increase of soluble Fas L, which may function in an autocrine/paracrine pathway to mediate cell death. Lastly, EBV genome was detected from neutrophils of infectious mononucleosis (IM) patients in contrast to neutrophils obtained from healthy EBV-seropositive donors. Our findings on the interactions of EBV with neutrophils will then provide new insights on the immunosuppressive effects associated with EBV infection.