Cycloimide bacteriochlorin p derivatives: photodynamic properties and cellular and tissue distribution

Reactive oxygen species generated by photosensitizers are efficacious remedy for tumor eradication. Eleven cycloimide derivatives of bacteriochlorin p (CIBCs) with different N-substituents at the fused imide ring and various substituents replacing the 3-acetyl group were evaluated as photosensitizers with special emphasis on structure-activity relationships. The studied CIBCs absorb light within a tissue transparency window (780-830 nm) and possess high photostability at prolonged light irradiation. The most active derivatives are 300-fold more phototoxic toward HeLa and A549 cells than the clinically used photosensitizer Photogem due to the substituents that improve intracellular accumulation (distribution ratio of 8-13) and provide efficient photoinduced singlet oxygen generation (quantum yields of 0.54-0.57). The substituents predefine selective CIBC targeting to lipid droplets, Golgi apparatus, and lysosomes or provide mixed lipid droplets and Golgi apparatus localization in cancer cells. Lipid droplets and Golgi apparatus are critically sensitive to photoinduced damage. The average lethal dose of CIBC-generated singlet oxygen per volume unit of cell was estimated to be 0.22 mM. Confocal fluorescence analysis of tissue sections of tumor-bearing mice revealed the features of tissue distribution of selected CIBCs and, in particular, their ability to accumulate in tumor nodules and surrounding connective tissues. Considering the short-range action of singlet oxygen, these properties of CIBCs are prerequisite to efficient antitumor photodynamic therapy.     

Synthesis and antiviral activity of 2'-deoxy-2'-fluoro-2'-C-methyl purine nucleosides as inhibitors of hepatitis C virus RNA replication

A series of purine nucleosides containing the 2'-deoxy-2'-fluoro-2'-C-methylribofuranosyl moiety were synthesized and evaluated as potential inhibitors of the hepatitis C virus in vitro. Of the nucleosides that were synthesized, only those possessing a 2-amino group on the purine base reduced the levels of HCV RNA in a subgenomic replicon assay.     

Lichen-like colonies of pure Trentepohlia on limestone monuments

Biofilms were collected on discoloured limestone samples and on adhesive tape from historic buildings at the Mayan site of Edzna, in Campeche, Mexico. Grey, brown, and black areas were colonised predominantly by coccoid and colonial cyanobacteria, also detected as endoliths. The major biomass on the pink stone surface was Trentepohlia. At low power, surface micropits containing crustose-lichen-like black colonies were seen within these pink areas. These were apparently pure colonies of T. umbrina; no filamentous fungi were detected here. The black colour was produced by dense, amorphous pigment deposits in the colony centres. Insolation levels were high (400 μmphotons m⁻² s⁻¹) and the moisture content of the stone was 0.7%. The high carotenoid:chlorophyll-α ratio of Trentepohlia biofilms (3.9:1) is an adaptation protecting against environmental stress. Trentepohlia caused severe local erosion (pitting) and, when present as a more uniform biofilm, the well-known pink surface discoloration.     

Adaptive Mutations Resulting in Enhanced Polymerase Activity Contribute to High Virulence of Influenza A Virus in Mice

High virulence of influenza virus A/Puerto Rico/8/34 in mice carrying the Mx1 resistance gene was recently shown to be determined by the viral surface proteins and the viral polymerase. Here, we demonstrated high-level polymerase activity in mammalian host cells but not avian host cells and investigated which mutations in the polymerase subunits PB1, PB2, and PA are critical for increased polymerase activity and high virus virulence. Mutational analyses demonstrated that an isoleucine-to-valine change at position 504 in PB2 was the most critical and strongly enhanced the activity of the reconstituted polymerase complex. An isoleucine-to-leucine change at position 550 in PA further contributed to increased polymerase activity and high virulence, whereas all other mutations in PB1, PB2, and PA were irrelevant. To determine whether this pattern of acquired mutations represents a preferred viral strategy to gain virulence, two independent new virus adaptation experiments were performed. Surprisingly, the conservative I504V change in PB2 evolved again and was the only mutation present in an aggressive virus variant selected during the first adaptation experiment. In contrast, the virulent virus selected in the second adaptation experiment had a lysine-to-arginine change at position 208 in PB1 and a glutamate-to-glycine change at position 349 in PA. These results demonstrate that a variety of minor amino acid changes in the viral polymerase can contribute to enhanced virulence of influenza A virus. Interestingly, all virulence-enhancing mutations that we identified in this study resulted in substantially increased viral polymerase activity.Influenza virus infections continue to represent a major public health threat. Epidemics caused by influenza A viruses (FLUAV) occur regularly, often leading to excess mortality in susceptible populations, and may result in devastating pandemics for humans (37). An avian FLUAV originating from Asia and currently circulating among domestic birds in many countries has the potential to infect and kill people. If further adaptation to humans occurs, this virus strain might become the origin of a future pandemic (57). Although influenza viruses are well characterized, the molecular determinants governing cross-species adaptation and enhanced virulence of emerging virus strains in humans are presently not well understood. The known viral virulence factors are the envelope glycoproteins hemagglutinin (HA) and neuraminidase (NA), the nonstructural proteins NS1 and PB1-F2, and the polymerase complex. HA and NA are of key importance for host specificity and virulence because they determine specific receptor usage and efficient cell entry, as well as formation and release of progeny virus particles. NS1 is a multifunctional protein with interferon-antagonistic activity able to suppress host innate immune responses (11, 15). The small proapoptotic protein PB1-F2 induces more-severe pulmonary immunopathology and increases susceptibility to secondary bacterial pneumonia (3, 30). Recent evidence indicates that the polymerase complex consisting of the three subunits PA, PB1, and PB2 is also a determinant of virulence. Analyses of the 1918 pandemic virus showed that PB1 contributed to the high virulence of this deadly strain (38, 54, 56). Likewise, PB1 also contributed to the unusually high virulence of the pandemic viruses of 1957 and 1968 (23, 47). Interestingly, in recent avian-to-human transmissions of H5N1 and H7N7 viruses, the PB2 subunit was found to play a critical role (32, 40). Molecular studies revealed that an E-to-K exchange at position 627 of PB2 facilitates efficient replication of avian viruses in human cells (24, 33) and determines pathogenicity in mammals (18, 32, 51). Furthermore, recent analyses of highly pathogenic H5N1 viruses demonstrated that PA is involved in high virulence of these avian strains for both avian and mammalian hosts (21, 27).Moderately pathogenic FLUAV strains can be rendered more pathogenic by repeated passages in experimentally infected animals (2, 13, 16, 49, 55). During such adaptations, the evolving viruses frequently seem to acquire virulence-enhancing mutations in the polymerase genes. We recently characterized a virus pair with strikingly different virulences in mice and showed that the virulence-enhancing mutations of the highly virulent strain mapped to the HA, NA, and polymerase genes (13). The two A/Puerto Rico/8/34 (A/PR/8/34) strains are referred to here as high-virulence A/PR/8/34 (hvPR8) and low-virulence A/PR/8/34 (lvPR8). Interestingly, hvPR8 is also highly virulent in mice that carry functional alleles of the Mx1 resistance gene (17), most likely because it replicates rapidly enough to evade the innate immune response of naïve hosts (13).Here, we systematically analyzed which mutations in the three viral polymerase genes contribute to enhanced virulence of hvPR8. We found that two conservative mutations, one in PB2 (I504V) and one in PA (I550L), account for the high-virulence phenotype and that each single mutation considerably increases the activity of the reconstituted polymerase complex. Interestingly, in a new mouse adaptation experiment, the same I504V mutation in PB2 was acquired again by a highly virulent isolate as the only change in the polymerase complex. In contrast, another virulent, mouse-adapted isolate acquired two different mutations in PA and PB1. In this case, the change in PA had a greater impact on both enhanced polymerase activity and enhanced virulence than the mutation in PB1. These data demonstrate that increased polymerase activity contributes to high virus virulence and that human FLUAV have a range of options to achieve this goal.(This work was conducted by Thierry Rolling, Iris Koerner, and Petra Zimmermann in partial fulfillment of the requirements for an M.D. degree from the Medical Faculty [T.R.] or a Ph.D. degree from the Faculty of Biology [I.K. and P.Z.] of the University of Freiburg, Germany.)     

Host immunization shapes interspecific associations in trematode parasites

1. Individuals of free-living organisms are commonly infected by multiple parasite species. Under such circumstances, positive or negative associations between the species are possible because of direct or indirect interactions, details in parasite transmission ecology and host-mediated factors. One possible mechanism underlying these processes is host immunity, but its role in shaping these associations has rarely been tackled experimentally.
2. In this study, we tested the effect of host immunization on associations between trematode parasites infecting eyes of fish. We first analysed the associations between three species ( Diplostomum spathaceum , Diplostomum gasterostei and Tylodelphys clavata ) in wild hosts, roach ( Rutilus rutilus ) and perch ( Perca fluviatilis ). Second, using rainbow trout ( Oncorhynchus mykiss ) as a model fish species, we experimentally investigated how sequential immunization of the host (i.e. one parasite species infects and immunizes the host first) could affect the associations between two of the species.
3. The results indicated that most of the associations were positive in wild hosts, which supports between-individual variation in host susceptibility, rather than competitive exclusion between the parasite species. However, positive associations were more common in roach than in perch, possibly reflecting differences in ecological conditions of exposure between the host species. The experimental data showed that positive associations between two of the species were eroded by host immunization against one of the parasite species.
4. We conclude that sequential immunization of hosts has a marked effect on interspecific parasite associations and basically can determine if positive associations are detected or not. This implies that correlative results suggesting non-interactive community structure in general may be obscured by the sequence of previous parasite exposure and corresponding dynamics of host immunization.     

Deep-water shrimp (Pandalus borealis, Krøyer 1838) as indicator organism for fish-farm waste

A feeding experiment was carried out with deep-water shrimp (Pandalus borealis), a common benthic inhabitant of Norwegian fjords. Shrimp were reared in tanks for three months, fed either salmon feed or cod, and the fatty acid profile of their muscle tissue was monitored. The salmon feed pellets and cod had completely different fatty acid compositions, with significant differences in most of the analysed fatty acids, eight of them, 14:0, iso16:0, 16:1n7, 16:2n11, 18:3n3, 20:0, 22:0 and 22:1n11, differing between the two diets by a factor of 10 or more. The levels of the fatty acids in the diets differed also substantially from the levels in the shrimp tissue at the start of the experiment. The shrimp were fed ad libitum and both groups increased significantly in total fatty acid content in the course of the experiment. Nevertheless, the fatty acids made up no more than 6.5 mg g^− 1 muscle tissue, with 88 ± 1% of them bound in polar, membrane lipids. Their composition in the tissue did also change to a certain extent, but the resulting tissue composition did not reflect the fatty acid composition of the diets. Only two fatty acids, 18:2n6 and 18:3n3, clearly followed the dietary level. They are abundant in commercial salmon feed since they are rich in plant oils used as additives to the commercial feed. Determination of fatty acid levels in shrimp tissue may enable shrimp to be used as indicator organisms for the influence of organic fish-farm waste on the food web in adjacent areas.     

The role of epistasis on the evolution of recombination in host-parasite coevolution

Antagonistic coevolution between hosts and parasites is known to affect selection on recombination in hosts. The Red Queen Hypothesis (RQH) posits that genetic shuffling is beneficial for hosts because it quickly creates resistant genotypes. Indeed, a large body of theoretical studies have shown that for many models of the genetic interaction between host and parasite, the coevolutionary dynamics of hosts and parasites generate selection for recombination or sexual reproduction. Here we investigate models in which the effect of the host on the parasite (and vice versa) depend approximately multiplicatively on the number of matched alleles. Contrary to expectation, these models generate a dynamical behavior that strongly selects against recombination/sex. We investigate this atypical behavior analytically and numerically. Specifically we show that two complementary equilibria are responsible for generating strong linkage disequilibria of opposite sign, which in turn causes strong selection against sex. The biological relevance of this finding stems from the fact that these phenomena can also be observed if hosts are attacked by two parasites that affect host fitness independently. Hence the role of the Red Queen Hypothesis in natural host parasite systems where infection by multiple parasites is the rule rather than the exception needs to be reevaluated.     

Proteome Profiling in Murine Models of Multiple Sclerosis: Identification of Stage Specific Markers and Culprits for Tissue Damage

The identification of new biomarkers is of high interest for the prediction of the disease course and also for the identification of pathomechanisms in multiple sclerosis (MS). To specify markers of the chronic disease phase, we performed proteome profiling during the later phase of myelin oligodendrocyte glycoprotein induced experimental autoimmune encephalomyelitis (MOG-EAE, day 35 after immunization) as a model disease mimicking many aspects of secondary progressive MS. In comparison to healthy controls, high resolution 2 dimensional gel electrophoresis revealed a number of regulated proteins, among them glial fibrilary acidic protein (GFAP). Phase specific up-regulation of GFAP in chronic EAE was confirmed by western blotting and immunohistochemistry. Protein levels of GFAP were also increased in the cerebrospinal fluid of MS patients with specificity for the secondary progressive disease phase. In a next step, proteome profiling of an EAE model with enhanced degenerative mechanisms revealed regulation of alpha-internexin, syntaxin binding protein 1, annexin V and glutamate decarboxylase in the ciliary neurotrophic factor (CNTF) knockout mouse. The identification of these proteins implicate an increased apoptosis and enhanced axonal disintegration and correlate well the described pattern of tissue injury in CNTF −/− mice which involve oligodendrocyte (OL) apoptosis and axonal injury.In summary, our findings underscore the value of proteome analyses as screening method for stage specific biomarkers and for the identification of new culprits for tissue damage in chronic autoimmune demyelination.     

Ancient Leishmaniasis in a Highland Desert of Northern Chile

Background

Leishmaniasis is an infectious disease endemic today in many areas of South America.

Methodology

We discovered morphologic and molecular evidence of ancient infections in 4 female skulls in the archaeological cemetery of Coyo Oriente, in the desert of San Pedro de Atacama, Northern Chile. The boney facial lesions visible in the skulls could have been caused by a number of chronic infections including chronic Leishmaniasis. This diagnosis was confirmed using PCR-sequenced analyses of bone fragments from the skulls of the affected individuals.Leishmaniasis is not normally found in the high-altitude desert of Northern Chile; where the harsh climate does not allow the parasite to complete its life cycle. The presence of Leishmaniasis in ancient skulls from the region implies infection by the protozoan in an endemic area–likely, in our subjects, to have been the lowlands of North-Eastern Argentina or in Southern Bolivia.

Conclusions

We propose that the presence of the disease in ancient times in the high altitude desert of San Pedro de Atacama is the result of an exogamic system of patrilocal marriages, where women from different cultures followed their husbands to their ancestral homes, allowing immigrant women, infected early in life, to be incorporated in the Atacama desert society before they became disfigured by the disease. The present globalization of goods and services and the extraordinary facile movement of people across borders and continents have lead to a resurgence of infectious diseases and re-emergence of infections such as Leishmaniasis. We show here that such factors were already present millennia ago, shaping demographic trends and the epidemiology of infections just as they do today.     

Detection and characterization of gamete-specific molecules in Mytilus edulis using selective antibody production

The mussel Mytilus edulis can be used as model to study the molecular basis of reproductive isolation because this species maintains its species integrity, despite of hybridizing in zones of contact with the closely related species M. trossulus or M. galloprovincialis. This study uses selective antibody production by means of hybridoma technology to identify molecules which are involved in sperm function of M. edulis. Fragmented sperm were injected into mice and 25 hybridoma cell clones were established to obtain monoclonal antibodies (mAb). Five clones were identified producing mAb targeting molecules putatively involved in sperm function based on enzyme immunoassays, dot and Western blotting as well as immunostaining of tissue sections. Specific localization of these mAb targets on sperm and partly also in somatic tissue suggests that all five antibodies bind to different molecules. The targets of the mAb obtained from clone G26-AG8 were identified using mass spectrometry (nano-LC-ESI-MS/MS) as M6 and M7 lysin. These acrosomal proteins have egg vitelline lyses function and are highly similar (76%) which explains the cross reactivity of mAb G26-AG8. Furthermore, M7 lysin was recently shown to be under strong positive selection suggesting a role in interspecific reproductive isolation. This study shows that M6 and M7 lysin are not only found in the sperm acrosome but also in male somatic tissue of the mantle and the posterior adductor muscle, while being completely absent in females. The monoclonal antibody G26-AG8 described here will allow elucidating M7/M6 lysin function in somatic and gonad tissue of adult and developing animals.