Influence of hematoporphyrin derivative concentration, incubation time, temperature during incubation and laser dose fractionation on photosensitivity of normal hemopoietic progenitors or leukemic cells

Photodynamic therapy represents a new approach for the local control of cancers. It has recently been claimed that photodynamic therapy mediated by hematoporphyrin derivative (HPD) is selectively more efficient for killing leukemic cells than normal progenitors. To improve this effect, we studied the influence of hematoporphyrin dose, temperature during incubation and/or treatment, hematoporphyrin derivative incubation time, and fractionation of the argon laser light (488-514 nm) used for hematoporphyrin stimulation. Plating efficiency calculated after a 7-day period of growth on collagen gel medium showed a dose-dependent phototoxicity of HPD reaching 0.01% for normal hemopoietic progenitors and 0.001% for leukemic cells (dose = 12.5 micrograms/ml). The 10:1 ratio of normal hemopoietic progenitors to leukemic cells was also found to be the same or increased when temperature was 37 degrees C during incubation and 4 degrees C during laser irradiation. Similar results were also found when incubation time was varied from 75-120 min, or when laser irradiation dose was fractionated into 2 or 3 periods. The ratio of normal progenitors to leukemic cells reached 100:1 when 75 J/cm2 were fractionated into 3 periods after an incubation time of 120 min with 10 micrograms/ml HPD. Selectivity in photodynamic treatment seems to occur between normal hemopoietic progenitors and leukemic cells. The mechanism of this selectivity remains unclear, but experiments with the fractionated irradiation dose suggest that as in radiotherapy, better potentially lethal damage repair in normal cells could be a factor for selectivity in photodynamic therapy. Our results obtained with leukemic cells are fully in agreement with data in the literature concerning similar experimental models.     

Effect of photoactivated hematoporphyrin derivative on the viability ofStaphylococcus aureus

The photodynamic effect of hematoporphyrin derivative (HPD) on the viability of penicillin-resistantStaphylococcus aureus is described. Growth rate of the bacteria was markedly reduced by exposure to light and HPD.Staphylococcus viability was decreased by 80% in 3 h of growth even at low HPD concentration (12 g/ml). A synergistic killing effect of HPD, light, and penicillin (10 g/ml) onStaphylococcus aureus was demonstrated, although the bacteria were originally resistant to 100 g/ml penicillin. A residual viability of only 3% was found by growth in medium containing this drug combination. The surviving bacteria after 3 h of treatment were sensitive even to 1 g penicillin/ml. The mechanism of HPD action onStaphylococcus is composed of two steps: i) penetration of HPD into the bacterial cell, which may be accomplished in the dark with no harm to the cells; ii) damaging of the bacterial cell upon photoactivation. The photoactivated HPD completely inhibited thymidine incorporation into the bacterial DNA. This effect was accompanied by inhibition of RNA and protein synthesis, which was parallel in extent to the reduction in growth rate. Electron microscopic examination ofS. aureus exposed for 3 h to HPD and light showed the appearance of well-developed mesosomes in the bacterial cells. None of these effects was observed on Gram-negative bacteria.     

Preferential uptake of cytotoxic porphyrins from hematoporphyrin derivative in murine L929 fibroblasts and Chinese hamster ovary K1 epithelial cells

Photodynamically induced loss of clonogenicity of murine L929 fibroblasts and Chinese hamster ovary K1 epithelial cells was determined with two different assays. It appeared that the loss of clonogenicity was much higher when 20 cells/cm2 were incubated with hematoporphyrin derivative (HPD) and illuminated, than when confluent cell layers were incubated with the same amount of HPD and illuminated prior to plating out. This dependency of cell killing on the experimental protocol was also observed when protoporphyrin (90-95% pure) was used as photosensitizer, but not when the cells were photodynamically treated with rose bengal or exposed to mitomycin C. Further, when cell layers were incubated with the residual solution that remained after the previous incubation of a confluent cell layer with HPD, illumination of these layers appeared to be almost non-toxic, although the overall porphyrin concentration in the residual solution was only slightly lower than in HPD. These results indicate that the porphyrins, responsible for loss of clonogenicity, are present in relatively small amounts in HPD and unpurified protoporphyrin and are preferentially taken up by the cells. Although 2-aminoisobutyric acid transport and DNA synthesis are among the most photosensitive targets with HPD, photodynamic treatment of L929 cells with the residual solution did not result in inhibition of the transport system and DNA synthesis. In contrast, the K+ content of the cells still decreased considerably, when utilizing the porphyrins, remaining in the residual solution as sensitizer. This indicates that under the present experimental conditions the disturbance of the membrane barrier function does not contribute to loss of clonogenicity of these cells and, moreover, that the photodynamically induced K+ leakage is caused by a component of HPD other than inhibition of 2-aminoisobutyric acid transport and DNA synthesis.     

A practical test for in vitro evaluation of photosensitization: Assessment with hematoporphyrin derivative (HPD)

A simple procedure is described for the determination of the photosensitizing potency of drugs, using three leukemic cell lines, two of lymphocytic origin, L1210 and P388 and one of erythroid type, Friend-745. The procedure allows one to investigate several aspects of the photosensitization properties of tested compounds such as cellular localization and direct (trypan blue exclusion) or delayed (clonogenicity) photomediated toxicities.The method was assessed using crude hematoporphyrin derivative (HPD) as well as dihematoporphyrin ether (DHE) or commercially available Photofrin II. Results were compared to those obtained with normal cells, e.g spleen lymphocytes and erythropoietic stem cells (CFU-e), and discussed in the light of the relative response of normal versus transformed cells.Abbreviations DHE Dihematoporphyrin Ether - FCS Fetal Calf Serum - HPD Hematoporphyrin Derivative - PDT Photodynamic Therapy     

Photogeneration of singlet molecular oxygen by the components of hematoporphyrin IX derivative

The photosensitized luminescence of singlet molecular oxygen has been studied in aqueous and alcoholic solutions of hematoporphyrin IX (HP) and di- and oligomeric components of "hematoporphyrin derivative" (photofrin II) which is known to be used as a drug in photodynamic tumor therapy. The quantum yields of 1O2 generation (gamma delta) by these compounds have been determined. It was found that the highest gamma delta values are characteristic of alcoholic and micellar detergent aqueous solutions. In detergent-free aqueous solutions containing mainly associated porphyrin molecules, gamma delta is much lower (5-30%), polymeric photofrin components being considerably less active than HP. Both localization of porphyrins in hydrophobic loci and high photosensitizing activity in lipid phase are supposed to play the key role in tumor photodestruction.     

Tumor localization of newly developed hematoporphyrin (DHP) using a bladder tumor model: a novel hematoporphyrin derivative

Application of laser irradiation with porphyrin(s) or their derivatives for the destruction of tumors in humans requires preliminary studies of their localization in normal and malignant tissues. A novel derivative of hematoporphyrin (HP) was prepared. The newly developed hematoporphyrin (DHP) was administered to Fisher rats with bladder tumors and showed greater accumulation in the tumoral tissues. Comparative data on (HP) and (DHP) are presented and discussed in light of the enhanced tumor porphyrin uptake caused by these agents. The homogeneous intense fluorescence noted with DHP-treated animals suggests that total tumor kill curative therapy will be more feasible. The study paves the way to refining increased porphyrin augment phototherapy and laser application in the field of oncology.     

Inactivation of bovine herpesvirus-1 and bovine viral diarrhea virus in association with preimplantation bovine embryos using photosensitive agents

Hematoporphyrin (HP), hematoporphyrin derivative (HPD), and thiopyronine (TP) are photosensitive agents (PSA) that have a germicidal effect when they are activated by light: helium neon laser (He Ne ) light (HP, HPD), white light (HP, HPD), and yellow-green light (TP). Experiments were conducted with appropriate controls to determine the effect of photosensitive agents a) for inactivating bovine herpesvirus-1 (BHV-1; titre 10(6) TCID(50) /ml) and bovine viral diarrhea virus (BVDV; titre 10(6) TCID(50) /ml); b) for disinfecting Day-7, zona pellucida-intact (ZP-I) bovine embryos that had been exposed to BHV-1 (titre 10(6) TCID(50) /ml) or BVDV (titre 10(6) TCID(50) /ml); and c) on the in vitro development of embryos. Exposure to HP, HPD and TP followed by light irradiation inactivated BHV-1 and BVDV. Embryos exposed to BHV-I were disinfected by HP or HPD (5 mug/ml) in combination with He Ne light, or by HP or HPD (10 mug/ml) in combination with white light. Embryos exposed to BVDV were disinfected by HPD (5 and 10 mug/ml) followed by He Ne or white light irradiation. Exposure of embryos to light alone or to light and HP or HPD had no detrimental effect on their in vitro development; however, exposure of embryos to TP (5 mug/ml) followed by irradiation caused embryonic degeneration. Exposure of embryos to 5 mug of HPD followed by He Ne light, or 10 mug/ml of HP or HPD, followed by white light, is simple methods of disinfecting them of BHV-I and BVDV.     

On the preparation of dihematoporphyrin ether-free hematoporphyrin derivative

A dihematoporphyrin ether-free hematoporphyrin derivative has been prepared by a base-catalysed dehydration of hematoporphyrin with sodium hydroxide. The identification was performed by HPLC and mass spectroscopy (FD-MS). The reaction of hematoporphyrin with 1 M sodium hydroxide for 24 h yields more than 90% of the monomeric porphyrins.     

The two-photon induced fluorescence of the tumor localizing photosensitizer hematoporphyrin derivative via 1064 nm photons from a 20 ns Q-switched Nd-YAG laser

We demonstrate the direct 1064 nm two-photon excitation of hematoporphyrin derivative (HPD), a complex mixture of photosensitizing porphyrins which is selectively retained in tumor tissue and used in cancer photochemotherapy. Although 1064 nm is outside of the one-photon HPD absorption spectrum, two-photon induced fluorescence from HPD was observed following excitation by the 20 ns output of an amplified, Q-switched Nd-YAG laser at peak power levels of 0.1 to 3 GW/cm2. Evidence for the successful two-photon excitation to vibrational levels of the S1 state consists of the observation of the known HPD fluorescence spectrum exhibiting peaks at approximately 615 and 675 nm, with the observed two-photon induced fluorescence intensity exhibiting a quadratic dependence on the excitation laser intensity as required for a direct two-photon process. More generally, these results suggest the possibility for the achievement of photosensitized oxidations utilizing photons of lower energy than that required for single photon excitation, offering the potential for both greater selectivity and a reduction in competing photochemical processes.     

Pharmacokinetic studies of hematoporphyrin derivatives on rat hepatocytes. Protoporphyrin dimethyl ester hematoporphyrin ether versus dihematoporphyrin ether-free hematoporphyrin derivative

Rat liver cells incorporate monomeric as well as dimeric hematoporphyrin derivatives. Time-dependent incubation assays gave evidence that monomeric compounds are more efficiently incorporated compared to protoporphyrin dimethyl ester hematoporphyrin ether. HL60 cells take up dimeric porphyrins in substantially higher quantities than hepatocytes do. These results allow the conclusion that physiological versus tumor cells behave differently with respect to porphyrin uptake: Whereas physiological cells prefer monomeric porphyrins, tumor cells preferentially incorporate dimeric porphyrins.     

光动力疗法对动物肿瘤生长的影响及机制研究

本实验选用经腹股沟皮下接种Ｗ２５６瘤细胞株形成实验性荷瘤大鼠４０只,采用光动力学疗法对患有移植瘤大鼠进行治疗,并同时检测血浆、肝脏及瘤组织中超氧化物歧化酶的活力及氧自由基代谢产物丙二醛含量。结果如下：（１）大鼠输入经紫外光照射之血后,其肿瘤生长速度明显减慢（Ｐ〈０．０５）,大鼠输入注有血卟啉衍生物的血后,其肿瘤生长亦显著减慢（Ｐ〈０．０１）;大鼠输入经紫外光照射并含有血卟淋衍生物之血后,其肿瘤生长     

The two-photon laser-induced fluorescence of the tumor-localizing photosensitizer hematoporphyrin derivative. Resonance-enhanced 750 nm two-photon excitation into the near-UV Soret band

The tumor-localizing photosensitizer hematoporphyrin derivative (HPD) is shown to undergo a simultaneous two-photon excitation into the near-ultraviolet Soret band system upon intense laser irradiation at 750 nm, a spectral region where there is no significant HPD one-photon absorbance in aqueous solution. Subsequent to this excitation, internal conversion and vibrational relaxation occur, resulting in the population of the vibrationless level of the first electronically excited singlet state. This state relaxes by two channels, the emission of fluorescence in the spectral region 600-700 nm and intersystem crossing into the triplet manifold, followed by near-resonant electronic energy transfer with surrounding oxygen to result in the generation of highly reactive singlet molecular oxygen (1 delta g). Evidence for the two-photon excitation consists in the observation both of the HPD fluorescence spectrum in the region of 615 nm as a result of 750 nm excitation and the quadratic dependence of this fluorescence emission intensity upon the excitation laser intensity. Since, in general, the penetration depth of ultraviolet and visible light into tissue varies directly with wavelength (red penetrating more deeply than blue), these studies suggest the possibility that two-photon-induced localization of tumor-bound HPD might facilitate the detection of deeper lying tumors than allowed by the current one-photon photolocalization method.     

HPD在胃癌细胞各时相中的转运分布和损伤部位的关系

本文探讨了HPD衍生物加红光对人胃低分化腺癌MGC 80-3细胞不同周期的生物学效应。我们观察到HPD的转运与分布决定于细胞周期。G_1期在30分至60分钟内HPD从膜转运至胞质;S、G_2期则直接进入胞质的不同部位;而M期在核部位弥散分布。同步化细胞经HPD加红光处理后,引起细胞大量光敏杀伤,S与G_1期较明显,而M期光敏性最小。我们还观察到:不同周期细胞HPD的分布和HPD的光敏损伤部位密切相关。核仁对HPD的选择性结合也很明显。     

Pharmacokinetic and -dynamic investigations on HL60 cells with a new protoporphyrin dimethyl ester hematoporphyrin dimer

Pharmacokinetic and -dynamic studies using a novel porphyrin dimer were performed in human line HL60 promyelocytic leukemia cells. Uptake of the dimer into leukemic cells was observed to occur at substantially lower concentrations in comparison to a previously described monomeric dihematoporphyrin ether-free hematoporphyrin derivative. Both dimer and monomer derivatives could be demonstrated to inhibit cell growth, with no remarkable quantitative differences being found in cell proliferation studies regarding [3H]-thymidine incorporation and assay for colony formation. Structurally, the new compound represents an unsymmetrically substituted diethyl ether having protoporphyrin dimethyl ester and hematoporphyrin as substituents. For this reason the compound was designated as protoporphyrin dimethyl ester hematoporphyrin ether.     

Synergistic effects of focus ultrasound with different frequency and hematoporphyrin on human tumor cells

Human hematopoietic cell K₅₆₂, human melenonla cell LiBr and human stomach cancer cells were exposed to ultrasound (US, 1.75 W/cm², 1.4, 2.16 and 2.4 MHz)in vitro in the presence or absence of hematoporphyrin (Hp, 100 μg/mL). The cell damaging effects of treatments were determined by means of the Trypan Blue dye exclusion test, MTT test and FDA test. The experimental results showed that the same cell line had different sensibilities to the US of different frequencies, and different cell line had different damage at the same acoustical radiation. The cornbined treatment with US and Hp enhanced greatly the cell damage, and no sensibility of insonation cells to US with Hp was observed. The cell damage tests showed that the results of MTT test corresponded well with that of Trypan Blue dye test. Project supported by the Natural Science Foundation of Shaanxi Province     

激光、血卟啉对小鼠S-180V肿瘤细胞膜通透性的作用及其影响因素

通过Na_2~(51)CrO_4在肿瘤细胞膜内外的分布比值的测定,观察了激光血卟啉衍生物(简称HPD)对小鼠S-180V肿瘤细胞膜通透性的作用及其影响因素:(1)通过紫外吸收光谱的测定对肿瘤细胞摄取HPD的动态过程作了观察。选择了实验所需的合适HPD浓度和作用时间,并观察到细胞悬液中血清蛋白能阻抑细胞对HPD的摄取。(2)在氦氖激光照射后即可观察到含有HPD的肿瘤细胞膜外~(51)Cr/膜内~(51)Cr的比值明显增加,而单照激光或单加HPD两组的~(51)Cr比值与正常对照组相比无明显变化。(3)上述的~(51)Cr比值变化随着照后保温时间的延长而逐渐加大。与此同时细胞形态也发生相应的变化,细胞死亡率也逐渐增加。说明除了原初的光敏反应外,还有继发的细胞损伤。(4)细胞悬液中血清蛋白的存在虽然对激光血卟啉对肿瘤细胞的杀伤作用有所减弱,但在这样条件下的光敏反应比较接近临床上治疗肿瘤的实际情况。     

声化学激活血卟啉诱导艾氏腹水肿瘤细胞凋亡

本实验采用频率为2．0MHz，声强分别为1．0w／cm^2、1．5w／cm^2、2．0w／cm^2等不同参数，研究超声激活血卟啉对艾氏腹水肿瘤细胞的杀伤作用和诱导肿瘤细胞凋亡现象。通过扫描电镜、透射电镜以及荧光显微镜观察受损后细胞形态结构的变化，主要表现为细胞微绒毛的减少，胞膜结构和通透性的改变，细胞器的受损以及核物质的分解、丢失；同时发现处理后的肿瘤细胞有核物质凝集、趋边排列以及凋亡小体的形成等细胞凋亡特征。研究中首次发现声化学激活血卟啉在对艾氏腹水肿瘤细胞杀伤的同时，也能诱导艾氏腹水肿瘤细胞发生凋亡，提示在声动力疗法中并存着对癌细胞的直接杀伤和通过诱导癌细胞凋亡的两种抗癌途径。     

Preparation of human salivary alpha-amylase specific monoclonal antibody

A mouse hybridoma cell line which produced an anti-human salivary alpha-amylase monoclonal antibody was obtained by fusion between mouse spleen cells immunized with human salivary alpha-amylase and mouse myeloma cells, followed by screening the hybridoma cells by enzyme-linked immunosorbent assay. The hybridoma cell line (27-4-1) secreted IgG. The monoclonal antibody produced by the hybridoma showed no inhibitory effect on the activity of human salivary alpha-amylase. The specificity and reactivity of this monoclonal antibody were examined by determining the activities of human salivary and pancreatic alpha-amylases bound to the monoclonal antibody immobilized on polystyrene balls or by enzyme immunoassay with the monoclonal antibody conjugated with beta-D-galactosidase. The results revealed that the monoclonal antibody produced by the hybridoma cell line was specific for salivary alpha-amylase and absolutely unreactive to pancreatic alpha-amylase.     

Involvement of reactive oxygen species in the oxidation of tyrosine and dopa to melanin and in skin tanning

The role of reactive oxygen (1O2 and O2-.) in skin photosensitization and tanning reaction has been examined. Riboflavin (RF), hematoporphyrin (HP), 3-carbethoxypsoralen (3-CP), and 8-methoxypsoralen (8-MOP), upon photoexcitation under aerobic conditions, produced singlet O2 (1O2). RF, 3-CP, and 8-MOP also produced superoxide anion (O2-.). Reactive O2 produced by photosensitized RF, 3-CP, and 8-MOP was found to oxidize tyrosine and dopa to dopachrome and subsequently their conversion to melanin. HP did not oxidize tyrosine to dopachrome, and 3-CP and RF revealed substantial oxidation of tyrosine. Dopa was oxidized to dopachrome and subsequently to melanin by all photosensitizers tested at a variable rate as follows: RF greater than 3-CP greater than HPD greater than 8-MOP. UVA alone and to a lesser extent UVB also produced 1O2 which induced the oxidation of tyrosine and dopa to dopachrome and subsequently to melanin. The production of dopachrome was higher with dopa compared to tyrosine under all irradiation conditions. These observations appear to have relevance to the O2-requiring immediate tanning reaction of the skin stimulated by solar radiation and in the induction of skin photosensitization.     

Selenium-induced enhancement of hematoporphyrin derivative phototoxicity in murine bladder tumor cells

The phototoxicity of hematoporphyrin derivative (Hpd) to murine bladder tumor (MBT-2) cells was studied in vitro. It was observed that selenium in the form of sodium selenite enhanced Hpd-sensitized photodamage in MBT-2 cells under conditions where selenite alone was non-toxic. Sodium selenite enhanced the fluorescence emission of Hpd and augmented the Hpd-sensitized photooxidation of tryptophan. The data suggest that sodium selenite is able to disaggregate Hpd, thereby enhancing Hpd-sensitized phototoxicity.