In vitro, ex vivo and in vivo models: A comparative analysis of Paracoccidioides spp. proteomic studies

Members of the Paracoccidioides complex are human pathogens that infect different anatomic sites in the host. The ability of Paracoccidioides spp. to infect host niches is putatively supported by a wide range of virulence factors, as well as fitness attributes that may comprise the transition from mycelia/conidia to yeast cells, response to deprivation of micronutrients in the host, expression of adhesins on the cell surface, response to oxidative and nitrosative stresses, as well as the secretion of hydrolytic enzymes in the host tissue. Our understanding of how those molecules can contribute to the infection establishment has been increasing significantly, through the utilization of several models, including in vitro, ex vivo and in vivo infection in animal models. In this review we present an update of our understanding on the strategies used by the pathogen to establish infection. Our results were obtained through a comparative proteomic analysis of Paracoccidioides spp. in models of infection.     

Dual inhibition of BRD4 and PI3K by SF2523 suppresses human prostate cancer cell growth in vitro and in vivo

Bromodomain-containing protein 4 (BRD4) and phosphatidylinositol 3-kinase (PI3K) are both key oncogenic proteins in human prostate cancer. In the current study, we examined the anti-prostate cancer cell activity by SF2523, a BRD4 and PI3K dual inhibitor. We showed that SF2523 potently inhibited survival and proliferation of the primary human prostate cancer cells. SF2523 induced profound apoptosis activation in prostate cancer cells. The dual inhibitor was yet non-cytotoxic to the prostate epithelial cells. At the molecular level, SF2523 downregulated BRD4-regulated genes (cyclin D1, c-Myc and androgen receptor) and almost blocked AKT-S6K1 activation in prostate cancer cells. In vivo, SF2523 intraperitoneal administration at the well-tolerated dose inhibited human prostate cancer xenograft growth in severe combined immunodeficient (SCID) mice. BRD4-regulated genes (cyclin D1, c-Myc and androgen receptor) and AKT-S6K1 activation were inhibited in SF2523-treated tumors. Together, dual inhibition of BRD4 and PI3K by SF2523 suppresses human prostate cancer cell growth in vitro and in vivo.     

Catenation and supercoiling in the products of bacteriophage λ integrative recombination in vitro

Catenanes (interlocked circular DNA molecules) are the exclusive products of the bacteriophage λ integrative recombination reaction in vitro when the substrate is a supercoiled DNA molecule containing both the attP and attB sites. It is proposed that the catenation results from the superhelical form of the substrate DNA. We also show that both circular DNA products of a single recombination event can be recovered as superhelical molecules with a superhelical density approximately that of the substrate DNA. The recombination reaction must therefore occur as a coupled process which does not permit free rotation around single-strand breaks at any stage.     

Pharmacological blockade of CXCR3 by (±)-NBI-74330 reduces neuropathic pain and enhances opioid effectiveness - Evidence from in vivo and in vitro studies

It has been suggested that CXCR3 is important for nociception. Our experiments were conducted to evaluate involvement of CXCR3 and its ligands (CXCL4, CXCL9, CXCL10, CXCL11/CCL21) in neuropathic pain. Our studies give new evidence that intrathecal administration of each CXCR3 ligand induces pain-like behaviour in naive mice that occurs shortly after injection due to its location of neurons, which is confirmed by immunofluorescent staining. Moreover, intrathecal administrations of CXCL9, CXCL10, CCL21 neutralizing antibodies diminished pain-related behaviour. RT-PCR/Western blot analysis unprecedentedly showed spinal elevated levels of CXCR3 after chronic constriction injury of the sciatic nerve in rats in parallel with different time-course changes of its endogenous ligands. Initially, on day 2 we observed spinal increased levels of CXCL10 and CXCL11 indicating that these chemokines have important roles in triggering neuropathy. Then, on day 7, we observed increased levels of CXCL4, CXCL9, CXCL10. Interestingly, changes in CXCL9 level persisted until day 28, suggesting that these chemokines are responsible for long-term, persistent neuropathy. Additionally, in DRG the CXCL4, CXCL9 were elevated. The results obtained from primary glial cultures, suggests that all CXCR3 ligands can be produced in microglia, but also, except for CXCL4, in astrocytes. We provide the first evidence that in neuropathy chronic intrathecal administration of CXCR3 antagonist, (±)-NBI-74330, attenuates hypersensitivity with concomitant occurrence of microglial and some of CXCR3 ligands activation observed in the spinal cord and/or DRG level. This paper underlies the significance of CXCR3 in neuropathic pain and shows therapeutic potential of its blockade for enhancement of morphine analgesia as the major novelty of this work.     

Synthesis, in vitro and in vivo evaluation of 2-aryl-4H-chromene and 3-aryl-1H-benzo[f]chromene derivatives as novel α-glucosidase inhibitors

Herein we report a study of novel arylchromene derivatives as analogs of naturally occurring flavonoids with prominent α-glucosidase inhibitory properties. Novel inhibitors were identified via simple stepwise in silico screening, efficient synthesis, and biological evaluation. It is shown that 2-aryl-4H-chromene core retains pharmacophore properties while being readily available synthetically. A lead compound identified through screening inhibits yeast α-glucosidase with IC₅₀ of 62.26?µM and prevents postprandial hyperglycemia in rats at 2.2?mg/kg dose.     

Genetic and phytochemical analysis of the in vitro regenerated Pilosocereus robinii by ISSR,SDS–PAGE and HPLC

Pilosocereus robinii is a rare species which is experiencing sudden population collapse. Identifying and developing effective conservation and management strategies to halt the forestall extinction of this species is crucial. The present study was conducted to assess the best conditions for in vitro propagation of this plant in regard to its morphogenic, genetic as well as the chemical potentials. A successful in vitro propagation system of P. robinii has been developed. MS hormone-free medium induced the best root morphogenic potential. The plants were acclimatized in the greenhouse at 100% survival rate. Besides, the somaclonal variations between the in vitro raised plants were analyzed using PCR-ISSR markers and SDS–PAGE protein, where the regenerated explants on MS medium supplemented with TDZ were the highest in inducing new specific marker bands. Sh6 ISSR primer showed the highest polymorphism value, 81.8% with 33 total amplified fragments, while Sh3 ISSR primer showed the lowest value with polymorphic percentage of 14.3%. Furthermore, SDS–PAGE protein analysis showed no variation in protein pattern of the studied treatments. On the other side, HPLC analysis of the in vitro plantlets extracts has shown that 2iP based treatments were the highest in organic acids accumulation, while the phenolic constituents' accumulation was found to reach its peak in the BA based treatments.     

Integrating in vitro and in silico approaches to evaluate the “dual functionality” of palmatine chloride in inhibiting and disassembling Tau-derived VQIVYK peptide fibrils

Background

Alzheimer's disease (AD) is the most common neurodegenerative disorder which is characterized by the deposits of intra-cellular tau protein and extra-cellular amyloid-β (Aβ) peptides in the human brain. Understanding the mechanism of protein aggregation and finding compounds that are capable of inhibiting its aggregation is considered to be highly important for disease therapy.

Detection of an internal translation activity in the 5′ region of Bombyx mori infectious flacherie virus

The 5′ untranslated region plays an important role in positive-sense single-stranded RNA virus translation initiation, as it contains an internal ribosome entry site (IRES) that mediates cap-independent translation and is applied to simultaneously express several proteins. Infectious flacherie virus (IFV) is a positive-sense single-stranded RNA virus; however, the IRES function is still not proved. To investigate whether the sequences of IFV contain IRES activity, a series of bicistronic reporter (DsRed and enhanced green fluorescent protein) recombinant baculoviruses were constructed to infect the insect cells and silkworm using the Bombyx mori baculovirus expression system. Results showed that the upstream 311, 323, 383, 551, and 599 nt have IRES activity except for the 155-nt region in BmN cells. More importantly, the tetraloop structure containing region between 551 and 599 nt appeared to be responsible for the enhanced IRES activity in different insect cell lines and silkworm. These results indicated that the IRES activity is not species specific and tissue specific. Therefore, our findings may provide the basis for the simultaneous expression of two or various different genes under the same promoter in baculovirus expression system.     

Use of poly(DL-lactide-ε-caprolactone) membranes and mesenchymal stem cells from the Wharton's jelly of the umbilical cord for promoting nerve regeneration in axonotmesis: In vitro and in vivo analysis

Cellular systems implanted into an injured nerve may produce growth factors or extracellular matrix molecules, modulate the inflammatory process and eventually improve nerve regeneration. In the present study, we evaluated the therapeutic value of human umbilical cord matrix MSCs (HMSCs) on rat sciatic nerve after axonotmesis injury associated to Vivosorb® membrane. During HMSCs expansion and differentiation in neuroglial-like cells, the culture medium was collected at 48, 72 and 96 h for nuclear magnetic resonance (NMR) analysis in order to evaluate the metabolic profile. To correlate the HMSCs ability to differentiate and survival capacity in the presence of the Vivosorb® membrane, the [Ca²⁺]i of undifferentiated HMSCs or neuroglial-differentiated HMSCs was determined by the epifluorescence technique using the Fura-2AM probe. The Vivosorb® membrane proved to be adequate and used as scaffold associated with undifferentiated HMSCs or neuroglial-differentiated HMSCs. In vivo testing was carried out in adult rats where a sciatic nerve axonotmesis injury was treated with undifferentiated HMSCs or neuroglial differentiated HMSCs with or without the Vivosorb® membrane. Motor and sensory functional recovery was evaluated throughout a healing period of 12 weeks using sciatic functional index (SFI), extensor postural thrust (EPT), and withdrawal reflex latency (WRL).     

Escherichia coli HflK and HflC can individually inhibit the HflB (FtsH)-mediated proteolysis of λCII in vitro

λCII is the key protein that influences the lysis/lysogeny decision of λ by activating several phage promoters. The effect of CII is modulated by a number of phage and host proteins including Escherichia coli HflK and HflC. These membrane proteins copurify as a tightly bound complex ‘HflKC’ that inhibits the HflB (FtsH)-mediated proteolysis of CII both in vitro and in vivo. Individual purification of HflK and HflC has not been possible so far, since each requires the presence of the other for proper folding. We report the first purification of HflK and HflC separately as active and functional proteins and show that each can interact with HflB on its own and each inhibits the proteolysis of CII. They also inhibit the proteolysis of E. coli σ³² by HflB. We show that at low concentrations each protein is dimeric, based on which we propose a scheme for the mutual interactions of HflB, HflK and HflC in a supramolecular HflBKC protease complex.     

Biosynthesis and in vitro enzymatic synthesis of the isoleucine conjugate of 12-oxo-phytodienoic acid from the isoleucine conjugate of α-linolenic acid

The isoleucine conjugate of 12-oxo-phytodienoic acid (OPDA-Ile), a new member of the jasmonate family, was recently identified in Arabidopsis thaliana and might be a signaling molecule in plants. However, the biosynthesis and function of OPDA-Ile remains elusive. This study reports an in vitro enzymatic method for synthesizing OPDA-Ile, which is catalyzed by reactions of lipoxygenase (LOX), allene oxide synthase (AOS), and allene oxide cyclase (AOC) using isoleucine conjugates of α -linolenic acid (LA-Ile) as the substrate. A. thaliana fed LA-Ile exhibited a marked increase in the OPDA-Ile concentration. LA-Ile was also detected in A. thaliana. Furthermore, stable isotope labelled LA-Ile was incorporated into OPDA-Ile. Thus, OPDA-Ile is biosynthesized via the cyclization of LA-Ile in A. thaliana.     

Identification of Cep169-interacting proteins and the in vivo modification sites of Cep169 via proteomic analysis

Cep169 is a microtubule plus-end tracking and centrosomal protein that interacts with CDK5RAP2. Cep169 is known to regulate microtubule dynamics and stability; however, its other cellular functions remain largely elusive. In this study, we identified novel Cep169-interacting proteins from HeLa cell extracts. Proteomic analysis via LC-MS/MS helped to identify approximately 400 novel Cep169-interacting proteins, including centrosomal proteins, cilium proteins, microtubule-associating proteins, and several E3 ubiquitin ligases. In addition, we identified in vivo posttranslational modification sites of Cep169, namely, 27 phosphorylation sites, five methylation sites, and four ubiquitination sites. Of these, 14 phosphorylated residues corresponding to the consensus Cdk phosphorylation sites may be required for Cdk1-mediated dissociation of Cep169 from the centrosome during mitosis and Cdk regulation during the G1/S phase. Furthermore, siRNA-induced Cep169 depletion was found to inhibit the growth of RPE1 cells. Our findings suggest that Cep169 regulates cell growth by interacting with multiple proteins.     

Influence of diverse gene 43 DNA polymerases on the incorporation and replication in vivo of 2-aminopurine at A · T base-pairs in bacteriophage T4

The relative rates at which A · T → AP · T² base-pairs are formed in DNA during 2-aminopurine mutagenesis, and the relative rates at which AP · T → AP · C base-pairs are formed during the in vivo replication of templates containing 2-aminopurine, were measured for a mutator, a wild type, and two antimutator bacteriophage T4 DNA polymerases. These measurements did not require quantitation of the 2-aminopurine in the T4 DNA. The mutator polymerase had no discernible effect upon the rate of A · T → AP · T, but increased the rate of AP · T → AP · C twofold over that of the wild-type enzyme. The two antimutator polymerases decreased the rate of formation of both AP · T and AP · C base-pairs compared to the wild-type enzyme. The relative antimutator effect is asymmetrically divided between the two mutation steps producing a very large decrease in the AP · T → AP · C step but a much smaller decrease in the A · T → AP · T step. This and additional observations suggest that the fidelity-enhancing components of T4 DNA polymerases distinguish between 2-aminopurine in template DNA and 2-aminopurine at the primer terminus.     

The absence of the CpNpG methylation at the 5′-terminal region of the human calcitonin gene in norm and leukemias

The inner cytosine methylation was analyzed in the CCWGG sequences of the 5′-terminal region of the human calcitonin gene from peripheral blood and bone marrow cells in various forms of leukemia. Since these sequences remain nonmethylated both in the norm and in various leukemia forms, the CpG dinucleotide hypermethylation of the 5′-end of the human calcitonin gene, characteristic for the development of leukemias, does not spread to adjacent CpNpG sequences.     

Determination of the CCR5∆32 frequency in Emiratis and Tunisians and the screening of the CCR5 gene for novel alleles in Emiratis

Background

The chemokine receptor components play crucial roles in the immune system and some of them serve as co-receptors for the HIV virus. Several studies have documented that variants in chemokine receptors are correlated with susceptibility and resistance to infection with HIV virus. For example, mutations in the chemokine receptor 5 gene (CCR5) resulting in loss-of-function (such as the homozygous CCR5?32) confer high degree of resistance to HIV infection. Heterozygotes for these variants exhibit slow progression to AIDS. The prevalence of CCR5 polymorphisms varies among ethnic and geographical groups. For example, the CCR5?32 variant is present in 10–15% of north Europeans but is rarely encountered among Africans. This study aims to identify the prevalence of some CCR5 variants in two geographically distant Arab populations (namely Emiratis and Tunisians).

Methodology

The prevalence of CCR5 gene variants including CCR5?32, FS299, C101X, A29S and C178R has been determined using PCR and direct DNA sequencing. A total of 403 unrelated healthy individuals (253 Emiratis and 150 Tunisians) were genotyped for the CCR5?32 variant using PCR amplification and gel electrophoresis. In addition, 200 Emiratis have been screened for other SNPs using Sanger DNA sequencing.

Results

Among Emiratis, the allele frequency of the CCR5?32 variant has been found to be 0.002. In addition, two variants L55Q and A159 were found at a frequency of 0.002. Moreover, the prevalence of the CCR5?32 variant in Tunisians was estimated to be 0.013 which is relatively higher than its frequency in Emiratis but lower than Europeans.

Conclusion

We conclude that the allele frequency of the most critical CCR5 polymorphism (?32) is extremely low among Emiratis compared to other Arabs and North Europeans. In addition, very low allele frequencies of other CCR5 polymorphisms have been detected among Emiratis.     

Detection of cellular proteins and viral core protein interacting with the 5′ untranslated region of hepatitis C virus RNA

Hepatitis C virus (HCV) is a pesti- and flavi-like virus, which contains a highly conserved 5-untranslated region (UTR). This region is implicated in the regulation of both translation and RNA replication. To examine the possible cellular factors involved in HCV replication, we performed UV cross-linking experiments to detect cellular proteins binding to 5-UTR of HCV RNA. No cytoplasmic proteins were found to cross-link to 5-UTR. Surprisingly, when nuclear extracts were used for UV cross-linking, a major protein of 110 kD and several other minor proteins were detected. Competition assays confirmed that the binding of the 110-kD protein was specific to the 5-UTR. The protein-binding site was mapped within the 78-nt region between nucleotides 199 and 277 from the 5 end of the viral RNA. This protein was present in several different cell lines tested. No cellular proteins specifically bound to the complementary strands of the 5-UTR. We have also shown by an RNA-protein blotting assay that 5-UTR bound to the HCV core protein, which can be translocated to the nuclei. These findings suggest that HCV RNA may enter nuclei by complexing with the viral core protein and interact with nuclear proteins that are involved in the regulation of RNA replication or translation. It is thus possible that HCV employs a replication strategy distinct from its related pestiviruses or flaviviruses.