Yaakov Pollack

Prenatal ontogeny of tyrosine hydroxylase gene expression in the rat ventral mesencephalon

We have examined the development of dopaminergic (DA) neurons in the embryonic mesencephalon with regard to the expression of the gene coding for tyrosine hydroxylase (TH). Mesencephalic DA neurons from rat embryos aged E13 to E21 were analyzed using a quantitative in situ hybridization protocol featuring a 35S-labeled RNA probe complimentary to TH mRNA. In the early-to-mid stage embryonic brains, the expression of the TH gene was examined relative to the position of individual, migrating DA cells in the caudal-rostral and dorsal-ventral axes of the mesencephalon. In the later embryonic subjects, neurons were analyzed according to their position in one of the midbrain DA nuclei. The ontogeny of TH gene expression in the rat mesencephalon exhibited two phases: during the early phase (E13-E15), we observed major fluctuations in the level of TH gene expression accompanying the differentiation and maturation processes of the DA cells. Later, in the mid-to-late gestation fetus (E18-E21), TH gene expression generally stabilized as TH mRNA-expressing neurons reached their final anatomical positions within the mesencephalic DA complex. Our data demonstrate the complex dynamics which characterize the ontogeny of TH gene expression in the prenatally developing mesencephalon, and suggest a connection between the maturational level of DA neurons and the expression of the key gene regulating their principle neurotransmitter.

pfmdr2 Confers Heavy Metal Resistance to Plasmodium falciparum

Heavy metals are required by all organisms for normal function, but high levels of heavy metals are toxic. Therefore, homeostasis of these metals is crucial. In the human malaria-causing agent Plasmodium falciparum, the mechanisms of heavy metal transport have yet to be characterized. We have developed a P. falciparum line resistant to heavy metals from a wild-type line sensitive to heavy metals. A molecular and biochemical analysis of the involvement of the P. falciparum multidrug resistance 2 (pfmdr2) gene, an ABC-type transporter, in heavy metal homeostasis was studied. Using a novel uptake assay applied on these two strains, it was demonstrated that, when exposed to heavy metals, the sensitive line accumulates metal, whereas no accumulation was observed in the resistant line. The accumulation occurs within the parasite itself and not in the cytoplasm of the red blood cell. This difference in the accumulation pattern is not a result of amplification of the pfmdr2 gene or of a change in the expression pattern of the gene in the two lines. Sequencing of the gene from both lines revealed a major difference; a stop codon is found in the sensitive line upstream of the normal termination, resulting in a truncated protein that lacks 188 amino acids that contain a portion of the essential cytoplasmatic transporter domain, thereby rendering it inactive. In contrast, the resistant line harbors a full-length, active protein. These findings strongly suggest that the PFMDR2 protein acts as an efflux pump of heavy metals.

Huntington disease in subjects from an Israeli Karaite community carrying alleles of intermediate and expanded CAG repeats in the HTT gene: Huntington disease or phenocopy?

We report a cluster of patients from a Karaite Jew community with a movement disorder suggestive of Huntington disease (HD), in some cases associated with repeat lengths below the edge of 36 CAG repeats. The study describes the clinical and genetic features of four patients who were followed over several years. Patients belonged to an inbred family in whom progressive chorea, manifesting predominantly with dystonia and cerebellar features, developed during middle age. Although severe psychiatric symptoms ultimately developed in two of the four patients, cognitive function remained reasonably well preserved in all of them even after several disease years. Moderate cognitive deficits were limited to the visuomotor organization and abstract thinking subtests in three of the four patients. Qualitative brain imaging showed atrophy of brain predominantly involving cortex and cerebellum. Genetic testing revealed a variable mutation penetrance among family members, some affected members showing an upper allele size ranging from 34 to 49, whereas others remained unaffected despite the presence of the full mutation beyond 40 CAG repeats. Co-morbidity with recessive hereditary inclusion body myopathy was found in two subjects from one family. Although the main diagnosis of HD remains to be confirmed by further neuropathological studies, these cases may suggest that HD could manifest with as few as 34 CAG repeats, in some geographic areas, the disease phenotype most probably being influenced by additional, as yet unidentified, genes.

Plasmodium falciparum: Evidence for a DNA methylation pattern

The methylation status of the adenine and cytosine residues in the genome of Plasmodium falciparum was studied using restriction enzymes exhibiting differential activity dependent on the methylation state of these residues in their recognition site. The gene coding for the enzyme dihydrofolate reductase-thymidylate synthase was studied for that purpose. No methylated adenine residues were observed in this gene in four strains tested. However, partial methylation of cytosine residues was observed in all strains. This methylation occurred at a specific site of the gene and was of the eukaryotic type, namely at a CpG sequence.

Transgenic mice with elevated level of CuZnSOD are highly susceptible to malaria infection.

Copper/zinc superoxide dismutase (CuZnSOD) catalyses the conversion of O2.- into H2O2. Constitutive overexpression of CuZnSOD in cells and animals creates an indigenous oxidative stress that predisposes them to added insults. In this study, we used transgenic CuZnSOD (Tg-CuZnSOD) mice with elevated levels of CuZnSOD to determine whether overexpression of CuZnSOD affected the susceptibility of these mice to plasmodium infection. Acute malaria is associated with oxidative stress, mediated by redox-active iron released from the infected RBC. Two independently derived Tg-CuZnSOD lines showed higher sensitivity than control mice to infection by Plasmodium berghei (P. berghei), reflected by an earlier onset and increased rate of mortality. Nevertheless, while Tg-CuZnSOD mice were more vulnerable than control mice, the levels of parasitemia were comparable in both strains. Moreover, treatment of infected red blood cells (RBC) with oxidative stress inducers, such as ascorbate or paraquat, reduced the viability of parasites equally in both transgenic and control RBC. This further confirms that increased CuZnSOD does not support plasmodia development. The data are consistent with the possibility that the combination of increased redox-active iron and elevated H2O2 in the plasmodium-infected Tg-CuZnSOD mice, led to an enhanced Fentons reaction-mediated HO. production, and the resulting oxidative injury renders the transgenic mice more vulnerable to parasite infection.

Differential expression of tyrosine hydroxylase mRNA in the developing rat mesencephalon.

Summary1.With respect to the mesostriatal projection, the mesencephalon is composed of two dopaminergic (DA) cell populations, calleddorsal tier andventral tier. Strong evidence suggests differences in both the spatial and the temporal sequence of the innervation of the striatum between the two groups, with the ventral tier neurons innervating striatal patches prenatally and dorsal tier cells innervating striatal matrix postnatally.2.Usingin situ hybridization, we have examined the expression of the gene coding for tyrosine hydroxylase (TH) in mesencephalic DA neurons with respect to their postnatal development. Two ontogenic patterns of expression were observed: (a) dorsal tier neurons of the medial mesencephalon exhibited a sharp increase in expression beginning after birth, peaking on day 14, then decreasing and, finally, stabilizing; and (b) ventral tier neurons and dorsal tier cells from the lateral and the medial-dorsal mesencephalon showed only a slight increase in TH mRNA, reaching a plateau at P10.3.The time course of the observed increase in TH gene expression in the first group, generally parallels the innervation of their target cells in the striatal matrix, suggesting that TH gene expression in these cells may be influenced by their postsynaptic cells or by the innervation process.

Protein Kinase C θ Deficiency Increases Resistance of C57BL/6J Mice to Plasmodium berghei Infection-Induced Cerebral Malaria

ABSTRACT Protein kinase C θ (PKCθ) functions as a core component of the immunological synapse and serves as a key protein in the integrated T-cell antigen receptor (TCR)/CD28-induced signaling cascade leading to T-cell activation. However, the involvement of PKCθ in host-mediated immune responses to pathogens has not been thoroughly investigated. We tested the consequences of PKCθ ablation on the host response to infection by Plasmodium berghei ANKA (PbA). We found that both PKCθ+/+ and PKCθ−/− C57BL/6J mice are susceptible to infection with PbA. However, despite a similar parasite burden, PKCθ+/+ mice had an earlier onset of neurological signs, characteristics of experimental cerebral malaria (ECM), resulting in an earlier death. These mice suffered from an early and pronounced splenomegaly with a concomitant increase in the total number of CD4+ splenic T cells. In contrast, a large proportion of PbA-infected PKCθ−/− mice overcame the acute phase characterized by neurological symptoms and survived longer than PKCθ+/+ mice. The partial resistance of PKCθ−/− mice to ECM was associated with an impaired production of Th1-type cytokines, including gamma interferon and tumor necrosis factor alpha/lymphotoxin-α, which are known to exacerbate symptoms leading to ECM. In addition, PbA infection-induced LFA-1 expression in CD8+ T cells was suppressed in PKCθ-deficient T cells, suggesting a diminished ability to adhere to endothelial cells and sequester in brain microvasculature, which may explain the decrease in neurological symptoms. These data implicate PKCθ in CD4+ Th1+ and CD8+ T-cell-mediated immune responses during PbA infection that contribute to the development of ECM.

Differential, Positional-Dependent Transcriptional Response of Antigenic Variation (var) Genes to Biological Stress in Plasmodium falciparum

1% of the genes of the human malaria causing agent Plasmodium falciparum belong to the heterogeneous var gene family which encodes P. falciparum erythrocyte membrane protein 1 (PFEMP1). This protein mediates part of the pathogenesis of the disease by causing adherence of infected erythrocytes (IE) to the host endothelium. At any given time, only one copy of the family is expressed on the IE surface. The cues which regulate the allelic exclusion of these genes are not known. We show the existence of a differential expression pattern of these genes upon exposure to biological stress in relation to their positional placement on the chromosome – expression of centrally located var genes is induced while sub-telomeric copies of the family are repressed - this phenomenon orchestrated by the histone deacetylase pfsir2. Moreover, stress was found to cause a switch in the pattern of the expressed var genes thus acting as a regulatory cue. By using pharmacological compounds which putatively affect pfsir2 activity, distinct changes of var gene expression patterns were achieved which may have therapeutic ramifications. As disease severity is partly associated with expression of particular var gene subtypes, manipulation of the IE environment may serve as a mechanism to direct transcription towards less virulent genes.

Expression of tyrosine hydroxylase mRNA in transplanted fetal dopamine neurons

Expression of genes coding for synthesis of secretory products has been shown to be an important index of neuronal activity. Gene expression in transplanted fetal substantia nigra (SN) was examined for the first time, utilizing in situ hybridization with a probe for tyrosine hydroxylase mRNA. Three months after implantation, the grafts contained many labeled neurons. Compared to host SN neurons, the grafted dopaminergic cells expressed more message for the enzyme, while they showed lower amounts of the enzyme itself. This result suggests that a molecular approach applied to neural transplantation can detect important if subtle differences in graft cell activity.

Dual fluorescent labelling of the human malaria parasite Plasmodium falciparum for the analysis of the ABC type transporter pfmdr2.

BackgroundThe study of the Plasmodium falciparum heavy metal transporter gene pfmdr2 employed radioactive labelled heavy metal. As the use of radioactive isotopes shrank considerably during the last few years, resulting in the cessation of the production of some isotopes, amongst them Cadmium109 which was used for that purpose, a different approach had to be developed. Herein, a dual fluorescent labelling of heavy metals accumulation in the P. falciparum parasite is proposed as an alternative to the use of radioactive labelled heavy metals.MethodsPlasmodium falciparum Cd resistant and sensitive strains at the trophozoite stage were used in this study. The cells were cultured at different CdCl2 concentrations and for different time periods followed by staining of the infected red blood cells with Fluo-3/AM for Cd detection and Hoechst 33342 for parasite DNA labelling. The fluorescent analysis was done by flow cytometry and confocal microscopy.ResultsThe results show that the sensitive strain has a higher Fluo-3/AM fluorescence in a Cd concentration and time dependent manner, whereas in the resistant strain Fluo-3/AM fluorescence levels were negligible and increased only at high concentrations of Cd and at long incubation periods, but to a much lesser extent than the sensitive strain. No Cd uptake is observed in uninfected red blood cells populations originating from cultures infected with either sensitive or resistant strain. In addition, confocal microscopy overlay of Fluo-3/AM and Hoechst staining shows that the Cd metal accumulates in the parasite itself.ConclusionsThe dual fluorescent labelling is a valid method for detecting heavy metal accumulation in P. falciparum. Furthermore, in contrast to the use of radioactive labelled heavy metal, the fluorescent labelling enables us to differentiate between the different populations existing in a P. falciparum infected red blood cells cultures and thus actually study a phenomenon at the level of a single cell.