ANALYSIS OF VIRAL DNA, PROTEIN AND ENVELOPE DAMAGE AFTER METHYLENE BLUE, PHTHALOCYANINE DERIVATIVE OR MEROCYANINE 540 PHOTOSENSITIZATION

Abstract— Although numerous photosensitizers have been used experimentally to decontaminate viruses in cellular blood components, little is known about their mechanisms of photoinactivation. Using M13 bacteriophage and vesicular stomatitis virus (VSV) as model viruses, we have investigated alteration of the viral genome, protein and envelope after phototreatment. Methylene blue (MB) and aluminum phthalocyanine tetrasulfonate (AlPcS₄) phototreatment inactivated bacteriophage M13 and decreased the fraction of single-stranded circular genomic DNA (sc-DNA) by converting it to linear form. This conversion was enhanced by treating the extracted DNA with piperidine at 55°C. Piperidine-labile breaks were well correlated to phage survival (5.1% sc-DNA at 1.7% phage survival for MB) under conditions where only minor differences were seen in the relative abundance of M13 coat protein on sodium dodecyl sulfate—polyacrylamide gel electrophoresis (SDS-PAGE). Neither aluminum phthalocyanine (AlPc) nor merocyanine 540 (MC540) inactivated M13 nor were there significant changes observed in DNA and coat protein. Methylene blue, AlPcS₄ and AlPc inactivated VSV and inhibited fusion of the virus envelope to Vero cells at pH 5.7 (i.e. with plasma membrane). However, the degree of this inhibition was small compared to the extent of virus inactivation (43% inhibition vs 4.7 log10 or 99.998% inactivation, for MB). In contrast, an antibody to VSV G-spike protein inhibited fusion at pH 5.7 by 52% with a concomitant decline in VSV infectivity of 0.15 log₁₀ (30%). Few changes were observed in the relative abundance of G protein for MB and AlPcS₄ phototreated samples and no additional protein bands were observed on SDS-PAGE. Phototreatment did not appreciably change the relative fusion ability at pH 7.2 (via the endocytotic pathway). These results collectively suggest that nucleic acid may be an important target for photoinactivation of these model viruses by MB and AlPcS₄.     

KINETICS OF SIMIAN VIRUS 40 AND LAMBDA INACTIVATION BY PHOTOADDITION OF PSORALEN DERIVATIVES

Abstract The kinetics of psora/en photoinactivation of two distinct DNA viruses, bacteriophage λ and the papovavirus SV40 were investigated. When λ is treated with near ultraviolet light (UVA, 320-400 nm) and 4,5',8-trimethylpsoralen (TMP) at 1 μg/m/, the phage is rapidly inactivated. The survival curve exhibits a distinct shoulder indicating second or higher-order kinetics. SV40, on the other hand, is much more resistant to psoralen photoinactivation and the survival curve is linear, reflecting first order or'pseudo-first order'kinetics. Two TMP derivatives with increased solubility in aqueous solutions, 4'-aminomethyl-TMP and 4'-hydroxymethyl-TMP, were similarly tested. In both virus systems, TMP was much more effective. In experiments designed to examine the role of psoralen cross-link formation in virus inactivation, treated samples were irradiated a second time in the absence of drug. Since reirradiation causes a decline in λ infectivity as great as that observed in continuously irradiated samples, cross-links are implicated as the primary lethal event. In the case of SV40, the results of such a protocol suggest that both monoadducts and cross-links may be lethal or that monoadduct formation may be rate-limiting.     

UVA and UVB‐Induced 8‐Methoxypsoralen Photoadducts and a Novel Method for their Detection by Surface‐Enhanced Laser Desorption Ionization Time‐of‐Flight Mass Spectrometry (SELDI‐TOF MS)

UVA‐activated psoralens are used to treat hyperproliferative skin conditions due to their ability to form DNA photoadducts, which impair cellular processes and may lead to cell death. Although UVA (320–400 nm) is more commonly used clinically, studies have shown that UVB (280–320 nm) activation of psoralen can also be effective. However, there has been no characterization of UVB‐induced adduct formation in DNA alone. As psoralen derivatives have a greater extinction coefficient in the UVB region (11 800 cm^?1 M^?1 at 300 nm) compared with the UVA region (2016 cm^?1 M^?1 at 365 nm), a greater extent of adduct formation is expected. SELDI‐TOF, a proteomic technique that combines chromatography with mass spectrometry, was used to detect photoadduct formation in an alternating A–T oligonucleotide. 8‐Methoxypsoralen (8‐MOP) and DNA solutions were irradiated with either UVA or UVB. An adduct peak was obtained with SELDI‐TOF. For UVB‐activated 8‐MOP, the extent of adducts was three times greater than for UVA. HPLC ESI‐MS analysis showed that UVB irradiation yielded high levels of 3,4‐monoadducts (78% of total adducts). UVA was more effective than UVB at conversion of 4′,5′‐monoadducts to crosslinks (17% vs 4%, respectively). This report presents a method for comparing DNA binding efficiencies of interstrand crosslink inducing agents.     

UVA-Potentiated Damage to Calf Thymus DNA by Fenton Reaction System and Protection by para-Aminobenzoic Acid

Abstract— Calf thymus DNA was irradiated with low-intensity UVA (main output at 365 nm, 2 mW cm^?2 or 36 kj m ² for 30 min), and the role of metal ions, hydrogen peroxide and reactive oxygen species (ROS) was examined. DNA damage was measured as thiobarbituric acid-reactive substances (possibly from degradation of deoxyribose) and as changes in ethidium bromide-DNA fluorescence due to unwinding from strand breaks. Under the present experimental conditions, UVA alone or in the presence of H₂0₂ had no effect on DNA but slightly enhanced the damage by iron/EDTA. Ultraviolet A strongly enhanced DNA damage (ca four- to five-fold) by the Fenton reaction system (50 μM Fe²⁺/100 μM EDTA + 0.5 mM H₂0₂). The results suggest that the Fenton reaction system was “photosensitized” to damage DNA by low-intensity UVA radiation. The enhanced damage by UVA was attributed in part to the reduction of Fe³⁺ to Fe²⁺. Ultraviolet A had no effect when iron (ferric or ferrous) ions were replaced by Cu²⁺, Zn²⁺, Mn²⁺ or Cd²⁺. The ROS involved in the UVA-enhanced damage to DNA by the Fenton reagents were OH and, to a lesser extent, superoxide anions. The UVA-potentiated DNA damage by the Fenton reaction system was then used to examine the protective effect of para-aminobenzoate (PABA), a UVB-absorbing sunscreen that protects against photocarcinogenesis in hairless mice. The results show that PABA and mannitol dose-dependently inhibited the damage with concentrations required for 50% inhibition at 0.1 mM and 3 mM, respectively. The protection by PABA was attributed to its radical-scavenging ability because PABA does not absorb light in the UVA region. These findings may be relevant to the biological damage by UVA and suggest that PABA is useful in protection against photocarcinogenesis by wide-range UV radiation.     

Redox Properties and in Vivo Magnetic Resonance Imaging of Cyclodextrin-Polynitroxides Contrast Agents

This paper reports the synthesis, characterization and in vivo application of water-soluble supramolecular contrast agents (Mw: 5–5.6 kDa) for MRI obtained from β-cyclodextrin functionalized with different kinds of nitroxide radicals, both with piperidine structure ( CD2 and CD3 ) and with pyrrolidine structure ( CD4 and CD5 ). As to the stability of the radicals in presence of ascorbic acid, CD4 and CD5 have low second order kinetic constants (≤0.05 M⁻¹ s⁻¹) compared to CD2 (3.5 M⁻¹ s⁻¹) and CD3 (0.73 M⁻¹ s⁻¹). Relaxivity (r₁) measurements on compounds CD3 - CD5 were carried out at different magnetic field strength (0.7, 3, 7 and 9.4 T). At 0.7 T, r₁ values comprised between 1.5 mM⁻¹ s⁻¹ and 1.9 mM⁻¹ s⁻¹ were found while a significant reduction was observed at higher fields (r₁≈0.6-0.9 mM⁻¹ s⁻¹ at 9.4 T). Tests in vitro on HEK293 human embryonic kidney cells, L929 mouse fibroblasts and U87 glioblastoma cells indicated that all compounds were non-cytotoxic at concentrations below 1 μmol mL⁻¹. MRI in vivo was carried out at 9.4 T on glioma-bearing rats using the compounds CD3 - CD5 . The experiments showed a good lowering of T₁ relaxation in tumor with a retention of the contrast for at least 60 mins confirming improved stability also in vivo conditions.     

Antiviral properties of photosensitizers

Abstract— We have studied the antiviral properties of three different groups of photo-sensitizers, viz. (i) various furyl compounds; (ii) β-carboline alkaloids; (iii) thiophenes and their acetylene derivatives. In general the antiviral potency of the furyl compounds correlated with their ability to produce DNA photoadducts. Among the naturally occurring β-carboline alkaloids, harmine was considerably more potent (in the presence of long wavelength UV radiation, UVA) than several other harmane-related compounds. Slight alterations in chemical structure had profound effects on their antiviral activities. Harmine was shown to inactivate the DNA-virus murine cytomegalovirus (MCMV) by inhibiting viral gene expression, although other targets may also exist. Several eudistomins, carboline derivatives isolated from a tunicate, were also photoactive against viruses. Various plant thiophenes and polyacetylenes were studied in detail. These compounds also required UVA for antiviral activity, and some of them were extremely potent against viruses with membranes, e.g. α-terthienyl, which showed significant activity at only 10^-5μg/ml. When MCMV had been treated with α-terthienyl plus UVA, the virus retained its integrity and penetrated cells normally; but the virus did not replicate. More than 30 additional thiophenes have recently been evaluated, including many synthetic ones, and some of these are even more potent than a-terthienyl. We believe that certain thiophenes possess potential therapeutic value and should be tested against model virus infections in animals.     

Effects of Ultraviolet Radiation (UVA+UVB) on Young Gametophytes of Gelidium floridanum: Growth Rate,Photosynthetic Pigments,Carotenoids, Photosynthetic Performance,and Ultrastructure

This study investigated the effects of radiation (PAR+UVA+UVB) on the development and growth rates (GRs) of young gametophytes of Gelidium floridanum. In addition, photosynthetic pigments were quantified, carotenoids identified, and photosynthetic performance assessed. Over a period of 3 days, young gametophytes were cultivated under laboratory conditions and exposed to photosynthetically active radiation (PAR) at 80 μmol photons m^?2 s^?1 and PAR+UVA (0.70 W m^?2)+UVB (0.35 W m^?2) for 3 h per day. The samples were processed for light and electron microscopy to analyze the ultrastructure features, as well as carry out metabolic studies of GRs, quantify the content of photosynthetic pigments, identify carotenoids and assess photosynthetic performance. PAR+UVA+UVB promoted increase in cell wall thickness, accumulation of floridean starch grains in the cytoplasm and disruption of chloroplast internal organization. Algae exposed to PAR+UVA+UVB also showed a reduction in GR of 97%. Photosynthetic pigments, in particular, phycoerythrin and allophycocyanin contents, decreased significantly from UV radiation exposure. This result agrees with the decrease in photosynthetic performance observed after exposure to ultraviolet radiation, as measured by a decrease in the electron transport rate (ETR), where values of ETRmax declined approximately 44.71%. It can be concluded that radiation is a factor that affects the young gametophytes of G. floridanum at this stage of development.     

DETERMINATION OF RESIDUAL 4-AMINOMETHYL-4,5',8-TRIMETHYLPSORALENAND MUTAGENICITY TESTING FOLLOWING PSORALEN PLUS UVA TREATMENT OF PLATELET SUSPENSIONS

Abstract— Psoralens and UVA light have been used in the laboratory to study the inactivation of viruses that may be infrequently present in platelet concentrates that are prepared for transfusion. In order to evaluate safety aspects of the treatment of platelet suspensions with 4'-aminomethyl-4,5',8-trimethylpsoralen (AMT), we have investigated the residual levels and mutagenic potential of AMT after UVA phototreatment. 4'-aminomethyl-4,5',8-trimethylpso-ralen, at a final concentration of 40 μg/mL, was added to platelet suspensions which contained 16% plasma and a synthetic medium. Platelet suspensions containing AMT were irradiated with up to 7.2 J/cm² UVA light under normal oxygen levels. Residual levels of AMT were determined by HPLC and a bioassay based on bacteriophage 0.6 inactivation. The photodestruction of AMT or its activity by UVA was characterized by a D₃₇ value of 0.6 and 0.3 J/cm² with HPLC or bioassay, respectively. At 2.4 J/cm² UVA, which results in approximately 5 log₁₀ inactivation of vesicular stomatitis virus (VSV) and retention of platelet in vitro properties, 12% (HPLC) to 9% (bioassay) AMT remained. Like other psoralens, AMT was found to bind to serum proteins as shown by ultrafiltration. Results are consistent with approximately 36% of the initial drug load binding primarily to serum albumin. It was determined using ³H-AMT that 9 to 18% of radioactivity was bound to platelets in the absence of irradiation. Similar fractions (13 to 18%) of AMT were bound to platelets after 3.6 J/cm² UVA irradiation, and 8 to 10% of total AMT was associated with saline-washed irradiated platelets and is presumably tightly bound. Mutagenicity testing (Ames test, in the absence of UVA) was also carried out on the UVA irradiated platelet samples. With Salmonella tester strains which detect primarily base substitution mutations (TA100, TA1535 and TA102), no increase from background mutagenesis levels was observed with any of the samples. However, tester strains which detect frameshift mutations (TA98, TA1537, and TA1538) displayed significant increases in histidine revertants over background levels for irradiated and non-irradiated AMT-containing samples tested in the presence of S9 microsomal enzymes. In the absence of S9 activation, a mutagenic response was observed only with tester strain TA1537. All frameshift tester strains exhibited decreased numbers of induced revertants with lower residual AMT concentrations (which correlated with higher UVA dose). Significant mutagenesis was still observed for platelet suspensions irradiated with virucidal levels of UVA which maintain platelet in vitro function (2.4 J/cm²). These results suggest that residual available AMT is mutagenic in the Ames test and that the observed frameshift mutations may be caused by binding of AMT or its metabolites to nucleic acids in the absence of UVA light.     

PSORALEN-MEDIATED VIRUS PHOTOINACTIVATION IN PLATELET CONCENTRATES: ENHANCED SPECIFICITY OF VIRUS KILL IN THE ABSENCE OF SHORTER UVA WAVELENGTHS

Abstract— Treatments with psoralens and long-wavelength ultraviolet radiation (UVA, 320–400 nm; PUVA) have shown efficacy for virus sterilization of platelet concentrates (PC). Our laboratory has employed the psoralen derivative 4'-aminomethyl-4, 5', 8-trimethylpsoralen (AMT), and we have found that platelet integrity is best preserved when rutin, a flavonoid that quenches multiple reactive oxygen species, is present during AMT/UVA treatment of PC. In this report, we examine the effects of different UVA spectra under our standard PC treatment conditions (i.e. 50 μg/mL AMT, 0.35 mM rutin and 38 J/cm² UVA). Added vesicular stomatitis virus (VSV; ≥5.5 log₁₀) was completely inactivated with the simultaneous maintenance of the platelet aggregation response (>90% of control) when a UVA light source with transmission mainly between 360 and 370 nm (narrow UVA1) was used. In contrast, with a broad-band UVA (320–400 nm; broad UVA) light source, the aggregation response was greatly compromised (<50% of control) with only a minor increase in the rate of VSV kill. With this lamp, platelet function could be improved to about 75% of the control by adding a long-pass filter, which reduced the transmission of shorter (≤345 nm) UVA wavelengths (340–400 nm; UVA1). At equivalent levels of virus kill, aggregation function was always best preserved when narrow UVA1 was used for PUVA treatment. Even in the absence of AMT, and with or without rutin present, narrow UVA 1 irradiation was better tolerated by platelets than was broad UVA. Our results suggest that for PUVA treatment of PC, the UVA dose range in which complete virus kill is obtained with the simultaneous maintenance of in vitro platelet function is smallest with broad UVA irradiation and largest with narrow UVA1. Thus, the virus specificity of PC treatment with AMT, UVA and quenchers can be further enhanced by the exclusion of the shorter UVA wavelength range.     

ANTIVIRAL ACTIVITY OF THE PHOTOACTIVE THIOPHENE α-TERTHIENYL

The naturally occurring thiophene, α-terthienyl, was investigated for phototoxicity against several viruses and a line of mouse cells. The compound was extremely phototoxic to the two-membrane-containing animal viruses, murine cytomegalovirus (MCMV) and Sindbis virus (SV). Antiviral activity was detected at 10⁵μg/m in the presence of UVA. However, no effect was seen in the absence of UV-A, even at 0.1 μg/m of αT. Mouse cells were much more resistant to αT, as was the bacterial virus T4, which does not contain a membrane. Murine CMV, which had been inactivated by αT and UVA, penetrated mouse cells efficiently; but the viral DNA could not replicate, and late viral proteins were not made. Thus viral gene expression was inhibited in the photoinactivated virus. In order to account for all these data we suggest that αT may interact with viral proteins in addition to membrane lipids.     

Ultraviolet-A-Dependent Inhibition of Cytoplasmic Aconitase Activity of Iron Regulatory Protein-1 in NCTC 2544 Keratinocytes

The aconitase activity of the cytoplasmic iron regulatory protein-1 of NCTC 2544 keratinocytes is effectively inhibited by physiological doses of UVA. The time course of the photoinactivation is biphasic. A fast step is first observed corresponding to about 50% inactivation after exposure to 5 J/cm²of UVA followed by a much slower photoinactivation at higher doses. The water-soluble antioxidant N-acetylcysteine only partially inhibits the pho-toinduced inactivation of the cytoplasmic aconitase function, whereas the lipophilic vitamin E, the iron chelator, desferrioxamine and the superoxide dismutase inhibitor, diethyldithiocarbamate do not protect at all. As a consequence, reactive oxygen species such as O₂^-, H₂O₂ and lipid peroxides and hydroperoxides seem to play a rather minor role in the inactivation induced by the UVA pho-tooxidative stress although an oxidative stress produced by O₂^- H₂O₂ is known to inhibit reversibly and effectively cytoplasmic aconitase activity in mammalian cells.     

Quinolone Antibiotic Photodynamic Production of 8-Oxo-7,8-dihydro-2'-deoxyguanosine in Cultured Liver Epithelial Cells

To study the basis for the phototoxicity of quinolones, a class of synthetic antibacterials, the photodynamic ability to mediate 8-oxo-7,8-dihydro-2′-deoxyguanosine (8-oxo-dG) formation in cultured cells was measured for lome-floxacin (LMX), which is strongly associated with clinical phototoxicity in humans, and ciprofloxacin (CFX), which has few reports of phototoxicity. Adult rat liver (ARL-18) cells were exposed to the quinolones in the presence of UVA and DNA was extracted and analyzed by HPLC with electrochemical detection. Low levels of 8-oxo-dG were found in the DNA of nonirradiated ARL-18 cells and this was increased up to 6-fold in the presence of either LMX (50–400 uAf) or up to 3.6-fold in the presence of CFX (50–400 µM) and UVA (20 J/cm²) when compared to the UVA control. Comparing separate experiments with LMX and CFX, LMX produced greater levels of 8-oxo-dG either after dark exposure or after UVA exposure at 20 J/cm². Also, LMX and CFX were both shown to photodegrade in the presence of UVA, and it was determined that UVA photoinstability alone does not reflect phototoxic potential. These data suggest that the photodynamic potential of LMX and CFX to produce 8-oxo-dG may relate to their human clinical phototoxicity profile. We suggest that the observed clinical phototoxicity is mediated through a UVA photodynamic effect on the quinolone to form reactive oxygen species in the presence of molecular oxygen. The findings indicate that 8-oxo-dG formation can serve as a marker for the potential phototoxicity of new quinolones.     

On “Coordinational Stabilization” of High Oxidation States of Metals

A hypothesis of the ligand matrix stabilization of metal ions in high oxidation states is considered using the structural thermodynamic model and stabilization of Zr⁴⁺ ion in ZrC₆₀ cluster as an example. The corresponding energy estimates are presented for fullerides of the M ^z @C _m M ^s type (m 60). The possibility of using fullerenes as matrices with a high electron affinity is shown.     

Effects of Ultraviolet Radiation (UVA+UVB) and Copper on the Morphology,Ultrastructural Organization and Physiological Responses of the Red Alga Pterocladiella capillacea

The effect of ultraviolet (UV) radiation and copper (Cu) on apical segments of Pterocladiella capillacea was examined under two different conditions of radiation, PAR (control) and PAR+UVA+UVB (PAR+UVAB), and three copper concentrations, ranging from 0 (control) to 0.62, 1.25 and 2.50 μm . Algae were exposed in vitro to photosynthetically active radiation (PAR) at 70 μmol photons m^?2 s^?1, PAR + UVB at 0.35 W m^?2 and PAR +UVA at 0.70 W m^?2 during a 12‐h photocycle for 3 h each day for 7 days. The effects of radiation and copper on growth rates, content of photosynthetic pigments and photosynthetic performance were analyzed. In addition, samples were processed for light and transmission electron microscopy. The content of photosynthetic pigments decreased after exposure to radiation and Cu. Compared with PAR radiation and copper treatments modified the kinetics patterns of the photosynthesis/irradiance curve. The treatments also caused changes in the ultrastructure of cortical and subcortical cells, including increased cell wall thickness and accumulation of plastoglobuli, as well as changes in the organization of chloroplasts. The results indicate that the synergistic interaction between UV radiation and Cu in P. capillacea, led to the failure of protective mechanisms and causing more drastic changes and cellular imbalances.     

Effect of copper and manganese ions on activities of laccase and peroxidases in three Pleurotus species grown on agricultural wastes

Copper (Cu²⁺) and manganese (Mn²⁺) ions influenced laccase (Lac) and peroxidase production in Pleurotus eryngii, Pleurotus ostreatus, and Pleurotus pulmonarius. In P. eryngii, the optimum Cu²⁺ concentration for Lac production was 1 mM and for peroxidases 10mM, and Mn²⁺ concentration of 5mM led to peaks of Lac and peroxidase activity. In P. ostreatus HAI 493, the highest level of Lac activity was at Cu²⁺ concentrations of 1 and 10 mM and Mn²⁺ concentration of 1mM, respectively. The absence of Cu²⁺ and Mn²⁺ caused the highest levels of peroxidase production. In P. ostreatus HAI 494, the highest level of Lac activity was at a Cu²⁺ concentration of 5 mM and at Mn²⁺ concentration of 1 mM, respectively. High levels of peroxidase activity were found in the medium without and with 1mM Cu²⁺, and at 1 and 5 mM Mn²⁺, respectively. In P. pulmonarius, the highest Lac activity was found in the presence of 5 mM Cu²⁺ and 5 mM Mn²⁺, respectively. The absence of Cu²⁺ and Mn²⁺ as well as their presence at a concentration of 1 mM led to the peaks of peroxidase activities.     

Photoacclimation Responses of the Brown Macroalga Sargassum Cymosum to the Combined Influence of UV Radiation and Salinity: Cytochemical and Ultrastructural Organization and Photosynthetic Performance

The photoacclimation responses of the brown macroalga Sargassum cymosum were studied to determine its cytochemical and ultrastructural organization, as well as photosynthetic pigments and performance. S. cymosum was cultivated in three salinities (30, 35 and 40 psu) under four irradiation treatments: PAR‐only, PAR + UVA, PAR + UVB and PAR + UVA + UVB. Plants were exposed to PAR at 70 μmol photons m^?2 s^?1, PAR + UVB at 0.35 W m^?2 and PAR +UVA at 0.70 W m^?2 for 3 h per day during 7 days in vitro. Growth rate was not significantly affected by any type of radiation or salinity. The amount of pigments in S. cymosum was significantly influenced by the interaction of salinity and radiation treatments. Compared with PAR‐only, UVR treatments modified the kinetics patterns of the photosynthesis/irradiance curve. After exposure to UVR, S. cymosum increased cell wall thickness and the presence of phenolic compounds. The number of mitochondria increased, whereas the number of chloroplasts showed few changes. Although S. cymosum showed insensitivity to changes in salinity, it can be concluded that samples treated under four irradiation regimes showed structural changes, which were more evident, but not severe, under PAR + UVB treatment.     

Comparative study of erythema response to UVA radiation in guinea pigs and humans

Abstract— Cutaneous erythema resulting from UVB radiation has been extensively studied in both humans and experimental animals; however, although there have been several investigations defining UVA erythema in humans, there have been no comprehensive reports using an animal model. Accordingly, studies were designed to assess UVA erythema in terms of time of onset; time of maximum reaction; and fluence-response relationships in albino guinea pigs and to compare these with similar studies in humans. Two high intensity Hg vapor lamps containing iron and gallium halides were used as UVA light sources. Both have sufficient fiuence rates (190 to 260 W m^?2) so as to allow convenient exposure times for delivery of UVA erythemogenic fluences. UVA fluences of 20 times 10⁴, 40 times 10⁴ and 60 times 10⁴ J m^?2 were administered to 58 humans and 51 Hartley-strain albino guinea pigs. Data obtained in humans indicate that UVA erythema develops immediately after irradiance with a maximum erythema peak occurring in 6 to 12 h and markedly diminishing by 24 h. The minimal fiuence required to elicit erythema responses in Type I and Type II individuals was found to be approximately 40 times 10⁴ J m^?2 of UVA when observed at 6 h, a fiuence about 1000 times greater than that used to elicit UVB erythema. Studies in 51 guinea pigs demonstrated erythema immediately after irradiance, with a peak between 8 to 12 h, and a marked decrease in 48 h. The fiuence of UVA required to elicit erythema was similar to that required in humans. The two different light sources provided comparable data per unit exposure and were essentially similar to a Xe lamp. These data from both humans and guinea pigs strongly support the concept that UVA erythema can be assayed in guinea pigs and correlated with humans.     

KINETICS AND MECHANISM OF PHOTOCYCLOADDITION OF DEOXYURIDINES TO 2,3-DIMETHYL-2-BUTENE

The mechanism of photocycloaddition of 2′-deoxyuridine (1a) and thymidine (1b) to 2,3-dimethyl-2-butene (Bu) in acetonitrile by UV irradiation has been studied. The reciprocal quantum yield for the cycloaddition increased linearly with reciprocal concentrations of Bu in acetonitrile to give limiting quantum yields at infinite concentration of Bu as 0.030 and 0.0096 for 1a and 1b , respectively. This shows that the cycloaddition proceeds in a two-step mechanism between the triplet state of 1 and Bu through biradical intermediates. Addition of cis-1,3-pentadiene quenched the reaction obeying the Stern–Volmer equation. The above quenching experiments and laser transient spectroscopy revealed that the triplet state of 1a reacts with Bu with much larger rate constant (1.3–1.6 × 10⁹ M^?1 s^?1) than that of 1b (4–5 × 10⁷ M^?1 s^?1) reflecting larger steric hindrance exerted in the reaction of 1b than that of 1a .     

Photochemical inactivation of alpha- and poxviruses

The objective of this study was to determine whether photochemical inactivation of viruses could be accomplished with high efficiency while preserving the molecular integrity of viral targets allowing subsequent diagnostic tests to be performed at a lower level of containment and cost. We studied the effect of 5-iodonaphthyl 1-azide (INA) and amotosalen (AMO, also known as S-59), which are photochemicals known to target either viral proteins or nucleic acids, respectively. We found that vaccinia virus (VACV, an orthopox virus with a DNA genome) and pixuna virus (PIXV, an alphavirus with an RNA genome) were stable when irradiated with UVA alone or when exposed to either INA or AMO in the dark. AMO followed by UVA exposure was at least 1000-fold more virucidal than INA/UVA on vaccinia and pixuna viruses treated under similar conditions. Photoinactivation with either INA or AMO at conditions that abolished viral infectivity resulted in only minimal impairment of subsequent ELISA and PCR testing. The results presented in this study should assist in developing methods to inactivate in the field environmental and forensic samples suspected of viral contamination, thus limiting the need for costly security and safety operations after an accidental or intentional viral release.