Stalking influenza by vaccination with pre-fusion headless HA mini-stem

Inaccuracies in prediction of circulating viral strain genotypes and the possibility of novel reassortants causing a pandemic outbreak necessitate the development of an anti-influenza vaccine with increased breadth of protection and potential for rapid production and deployment. The hemagglutinin (HA) stem is a promising target for universal influenza vaccine as stem-specific antibodies have the potential to be broadly cross-reactive towards different HA subtypes. Here, we report the design of a bacterially expressed polypeptide that mimics a H5 HA stem by protein minimization to focus the antibody response towards the HA stem. The HA mini-stem folds as a trimer mimicking the HA prefusion conformation. It is resistant to thermal/chemical stress, and it binds to conformation-specific, HA stem-directed broadly neutralizing antibodies with high affinity. Mice vaccinated with the group 1 HA mini-stems are protected from morbidity and mortality against lethal challenge by both group 1 (H5 and H1) and group 2 (H3) influenza viruses, the first report of cross-group protection. Passive transfer of immune serum demonstrates the protection is mediated by stem-specific antibodies. Furthermore, antibodies indudced by these HA stems have broad HA reactivity, yet they do not have antibody-dependent enhancement activity.

Structural analysis of dihydrofolate reductases enables rationalization of antifolate binding affinities and suggests repurposing possibilities

Antifolates are competitive inhibitors of dihydrofolate reductase ( DHFR), a conserved enzyme that is central to metabolism and widely targeted in pathogenic diseases, cancer and autoimmune disorders. Although most clinically used antifolates are known to be target specific, some display a fair degree of cross-reactivity with DHFRs from other species. A method that enables identification of determinants of affinity and specificity in target DHFRs from different species and provides guidelines for the design of antifolates is currently lacking. To address this, we first captured the potential druggable space of a DHFR in a substructure called the `supersite' and classified supersites of DHFRs from 56 species into 16 `site-types' based on pairwise structural similarity. Analysis of supersites across these site-types revealed that DHFRs exhibit varying extents of dissimilarity at structurally equivalent positions in and around the binding site. We were able to explain the pattern of affinities towards chemically diverse antifolates exhibited by DHFRs of different site-types based on these structural differences. We then generated an antifolate-DHFR network by mapping known high-affinity antifolates to their respective supersites and used this to identify antifolates that can be repurposed based on similarity between supersites or antifolates. Thus, we identified 177 human-specific and 458 pathogen-specific antifolates, a large number of which are supported by available experimental data. Thus, in the light of the clinical importance of DHFR, we present a novel approach to identifying differences in the druggable space of DHFRs that can be utilized for rational design of antifolates.

A short in-frame deletion in NTRK1 tyrosine kinase domain caused by a novel splice site mutation in a patient with congenital insensitivity to pain with anhidrosis

Background: Congenital insensitivity to pain with anhidrosis (CIPA) is a rare autosomal recessive genetic disease characterized by the lack of reaction to noxious stimuli and anhidrosis. It is caused by mutations in the NTRK1 gene, which encodes the high affinity tyrosine kinase receptor I for Neurotrophic Growth Factor (NGF). -- Case Presentation: We present the case of a female patient diagnosed with CIPA at the age of 8 months. The patient is currently 6 years old and her psychomotor development conforms to her age (RMN, SPECT and psychological study are in the range of normality). PCR amplification of DNA, followed by direct sequencing, was used to investigate the presence of NTRK1 gene mutations. Reverse transcriptase (RT)-PCR amplification of RNA, followed by cloning and sequencing of isolated RT-PCR products was used to characterize the effect of the mutations on NTRK1 mRNA splicing. The clinical diagnosis of CIPA was confirmed by the detection of two splice-site mutations in NTRK1, revealing that the patient was a compound heterozygote at this gene. One of these alterations, c.574+1G > A, is located at the splice donor site of intron 5. We also found a second mutation, c.2206-2 A > G, not previously reported in the literature, which is located at the splice acceptor site of intron 16. Each parent was confirmed to be a carrier for one of the mutations by DNA sequencing analysis. It has been proposed that the c.574+1G > A mutation would cause exon 5 skipping during NTRK1 mRNA splicing. We could confirm this prediction and, more importantly, we provide evidence that the novel c.2206-2A > G mutation also disrupts normal NTRK1 splicing, leading to the use of an alternative splice acceptor site within exon 17. As a consequence, this mutation would result in the production of a mutant NTRK1 protein with a seven aminoacid in-frame deletion in its tyrosine kinase domain. --Conclusions: We present the first description of a CIPA-associated NTRK1 mutation causing a short interstitial deletion in the tyrosine kinase domain of the receptor. The possible phenotypical implications of this mutation are discussed.

Increased opioid dependence in a mouse model of panic disorder

[EN] Panic disorder is a highly prevalent neuropsychiatric disorder that shows co-occurrence with substance abuse. Here, we demonstrate that TrkC, the high-affinity receptor for neurotrophin-3, is a key molecule involved in panic disorder and opiate dependence, using a transgenic mouse model (TgNTRK3). Constitutive TrkC overexpression in TgNTRK3 mice dramatically alters spontaneous firing rates of locus coeruleus (LC) neurons and the response of the noradrenergic system to chronic opiate exposure, possibly related to the altered regulation of neurotrophic peptides observed. Notably, TgNTRK3 LC neurons showed an increased firing rate in saline-treated conditions and profound abnormalities in their response to met5-enkephalin. Behaviorally, chronic morphine administration induced a significantly increased withdrawal syndrome in TgNTRK3 mice. In conclusion, we show here that the NT-3/TrkC system is an important regulator of neuronal firing in LC and could contribute to the adaptations of the noradrenergic system in response to chronic opiate exposure. Moreover, our results indicate that TrkC is involved in the molecular and cellular changes in noradrenergic neurons underlying both panic attacks and opiate dependence and support a functional endogenous opioid deficit in panic disorder patients.

Improving the biological activity of pyrrole-imidazole polyamides

DNA is nature’s blueprint, holding within it the genetic code that defines the structure and function of an organism. A complex network of DNA-binding proteins called transcription factors can largely control the flow of information from DNA, so modulating the function of transcription factors is a promising approach for treating many diseases. Pyrrole-imidazole (Py-Im) polyamides are a class of DNA-binding oligomers, which can be synthetically programmed to bind a target sequence of DNA. Due to their unique shape complementarity and a series of favorable hydrogen bonding interactions that occur upon DNA-binding, Py-Im polyamides can bind to the minor groove of DNA with affinities comparable to transcription factors. Previous studies have demonstrated that these cell-permeable small molecules can enter cell nuclei and disrupt the transcription factor-DNA interface, thereby repressing transcription. As the use of Py-Im polyamides has significant potential as a type of modular therapeutic platform, the need for polyamides with extremely favorable biological properties and high potency will be essential. Described herein, a variety of studies have been performed aimed at improving the biological activity of Py-Im polyamides. To improve the biological potency and cellular uptake of these compounds, we have developed a next-generation class of polyamides bearing aryl-turn moieties, a simple structural modification that allows significant improvements in cellular uptake. This strategy was also applied to a panel of high-affinity cyclic Py-Im polyamides, again demonstrating the remarkable effect minor structural changes can have on biological activity. The solubility properties of Py-Im polyamides and use of formulating reagents with their treatment have also been examined. Finally, we describe the study of Py-Im polyamides as a potential artificial transcription factor.

Insights into the mechanism of human erythrocyte hexose transport : a transferred NOE study of glucose binding to GLUT1

This study examines binding of α- and β-D-glucose in their equilibrium mixture to the glucose transporter (GLUT1) in human erythrocyte membrane preparations by an ^1H NMR method, the transferred NOE (TRNOE). This method is shown theoretically and experimentally to be a sensitive probe of weak ligand-macromolecule interactions. The TRNOEs observed are shown to arise solely from glucose binding to GLUT1. Sites at both membrane faces contribute to the TRNOEs. Binding curves obtained are consistent with a homogeneous class of sugar sites, with an apparent K_D which varies (from ~30 mM to ~70 mM for both anomers) depending on the membrane preparation examined. Preparations with a higher proportion of the cytoplasmic membrane face exposed to bulk solution yield higher apparent KK_Ds. The glucose transport inhibitor cytochalasin B essentially eliminates the TRNOE. Nonlinearity was found in the dependence on sugar concentration of the apparent inhibition constant for cytochalasin B reversal of the TRNOE observed in the α anomer (and probably the β anomer); such nonlinearity implies the existence of ternary complexes of sugar, inhibitor and transporter. The inhibition results furthermore imply the presence of a class of relatively high-affinity (K_D < 2mM) sugar sites specific for the α anomer which do not contribute to NMR-observable binding. The presence of two classes of sugar-sensitive cytochalasin B sites is also indicated. These results are compared with predictions of the alternating conformer model of glucose transport. Variation of apparent K_D in the NMR-observable sites, the formation of ternary complexes and the presence of an anomer-specific site are shown to be inconsistent with this model. An alternate model is developed which reconciles these results with the known transport behavior of GLUT1. In this model, the transporter possesses (at minimum) three classes of sugar sites: (i) transport sites, which are alternately exposed to the cytoplasmic or the extracellular compartment, but never to both simultaneously, (ii) a class of sites (probably relatively low-affinity) which are confined to one compartment, and (iii) the high-affinity α anomer-specific sites, which are confined to the cytoplasmic compartment.

Electron transfer in cytochrome c oxidase : the rate of electron equillibration between cytochrome a and copper A

Intramolecular electron transfer in partially reduced cytochrome c oxidase has been studied by means of perturbed equilibrium techniques. We have prepared a three electron reduced, CO inhibited form of the enzyme in which cytochrome a and copper A are partially reduced an in intramolecular redox equilibrium. When these samples were photolyzed using a nitrogen laser (0.6 µs, 1.0 mJ pulses) changes in absorbance at 598 nm and 830 nm were observed which are consistent with a fast electron from cytochrome a to copper A. The absorbance changes at 598 nm have an apparent rate of 17,200 ± 1,700 s^(-1) (1σ), at pH 7.0 and 25.5 °C. These changes were not observed in either the CO mixed valence or CO inhibited fully reduced forms of the enzyme. The rate is fastest at about pH 8.0, and falls off in either direction, and there is a small, but clear temperature dependence. The process was also observed in the cytochrome c -- cytochrome c oxidase high affinity complex.

This rate is far faster than any rate measured or inferred previously for the cytochrome a -- copper A electron equilibration, but the interpretation of these results is hampered by the fact that the relaxation could only be followed during the time before CO became rebound to the oxygen binding site. The meaning of our our measured rate is discussed, along with other reported rates for this process. In addition, a temperature-jump experiment on the same system is discussed.

We have also prepared a partially reduced, cyanide inhibited form of the enzyme in which cytochrome a, copper A and copper B are partially reduced and in redox equilibrium. Warming these samples produced absorbance changes at 605 nm which indicate that cytochrome a was becoming more oxidized, but there were no parallel changes in absorbance at 830 nm as would be expected if copper A was becoming reduced. We concluded that electrons were being redistributed from cytochrome a to copper B. The kinetics of the absorbance changes at 605 nm were investigated by temperature-jump methods. Although a rate could not be resolved, we concluded that the process must occur with an (apparent) rate larger than 10,000 s^(-1).

During the course of the temperature-jump experiments, we also found that non-redox related, temperature dependent absorbance changes in fully reduced CO inhibited cytochrome c oxidase, and in the cyanide mixed valence enzyme, took place with an (apparent) rate faster that 30,000 s^(-1).

Developmentally regulated transcription factors in Drosophila melanogaster

During early stages of Drosophila development the heat shock response cannot be induced. It is reasoned that the adverse effects on cell cycle and cell growth brought about by Hsp70 induction must outweigh the beneficial aspects of Hsp70 induction in the early embryo. Although the Drosophila heat shock transcription factor (dHSF) is abundant in the early embryo, it does not enter the nucleus in response to heat shock. In older embryos and in cultured cells the factor is localized within the nucleus in an apparent trimeric structure that binds DNA with high affinity. The domain responsible for nuclear localization upon stress resides between residues 390 and 420 of the dHSF. Using that domain as bait in a yeast two-hybrid system we now report the identification and cloning of a nuclear transport protein Drosophila karyopherin-α3(dKap- α3). Biochemical methods demonstrate that the dKap-α3 protein binds specifically to the dHSF's nuclear localization sequence (NLS). Furthermore, the dKap-α3 protein does not associate with NLSs that contain point mutations which are not transported in vivo. Nuclear docking studies also demonstrate specific nuclear targeting of the NLS substrate by dKap-α3.Consistant with previous studies demonstrating that early Drosophila embryos are refractory to heat shock as a result of dHSF nuclear exclusion, we demonstrate that the early embryo is deficient in dKap-α3 protein through cycle 12. From cycle 13 onward the transport factor is present and the dHSF is localized within the nucleus thus allowing the embryo to respond to heat shock.

The pair-rule gene fushi tarazu (ftz) is a well-studied zygotic segmentation gene that is necessary for the development of the even-numbered parasegments in Drosophila melanogastor. During early embryogenesis, ftz is expressed in a characteristic pattern of seven stripes, one in each of the even-numbered parasegments. With a view to understand how ftz is transcriptionally regulated, cDNAs that encode transcription factors that bind to the zebra element of the ftz promoter have been cloned. Chapter Ill reports the cloning and characterization of the eDNA encoding zeb-1 (zebra element binding protein), a novel steroid receptor-like molecule that specifically binds to a key regulatory element of the ftz promoter. In transient transfection assays employing Drosophila tissue culture cells, it has been shown that zeb-1 as well as a truncated zeb-1 polypeptide (zeb480) that lacks the putative ligand binding domain function as sequencespecific trans-activators of the ftz gene.

The Oct factors are members of the POU family of transcription factors that are shown to play important roles during development in mammals. Chapter IV reports the eDNA cloning and expression of a Drosophila Oct transcription factor. Whole mount in-situ hybridization experiments revealed that the spatial expression patterns of this gene during embryonic development have not yet been observed for any other gene. In early embryogenesis, its transcripts are transiently expressed as a wide uniform band from 20-40% of the egg length, very similar to that of gap genes. This pattern progressively resolves into a series of narrower stripes followed by expression in fourteen stripes. Subsequently, transcripts from this gene are expressed in the central nervous system and the brain. When expressed in the yeast Saccharomyces cerevisiae, this Drosophila factor functions as a strong, octamer-dependent activator of transcription. The data strongly suggest possible functions for the Oct factor in pattern formation in Drosophila that might transcend the boundaries of genetically defined segmentation genes.

Design, synthesis, and biological activity of rhodium metalloinsertors

Deficiencies in the mismatch repair (MMR) pathway are associated with several types of cancers, as well as resistance to commonly used chemotherapeutics. Rhodium metalloinsertors have been found to bind DNA mismatches with high affinity and specificity in vitro, and also exhibit cell-selective cytotoxicity, targeting MMR-deficient cells over MMR-proficient cells.

Here we examine the biological fate of rhodium metalloinsertors bearing dipyridylamine ancillary ligands. These complexes are shown to exhibit accelerated cellular uptake which permits the observation of various cellular responses, including disruption of the cell cycle and induction of necrosis, which occur preferentially in the MMR-deficient cell line. These cellular responses provide insight into the mechanisms underlying the selective activity of this novel class of targeted anti-cancer agents.

In addition, ten distinct metalloinsertors with varying lipophilicities are synthesized and their mismatch binding affinities and biological activities studied. While they are found to have similar binding affinities, their cell-selective antiproliferative and cytotoxic activities vary significantly. Inductively coupled plasma mass spectrometry (ICP-MS) experiments show that all of these metalloinsertors localize in the nucleus at sufficient concentrations for binding to DNA mismatches. Furthermore, metalloinsertors with high rhodium localization in the mitochondria show toxicity that is not selective for MMR-deficient cells. This work supports the notion that specific targeting of the metalloinsertors to nuclear DNA gives rise to their cytotoxic and antiproliferative activities that are selective for cells deficient in MMR.

To explore further the basis of the unique selectivity of the metlloinsertors in targeting MMR-deficient cells, experiments were conducted using engineered NCI-H23 lung adenocarcinoma cells that contain a doxycycline-inducible shRNA which suppresses the expression of the MMR gene MLH1. Here we use this new cell line to further validate rhodium metalloinsertors as compounds capable of differentially inhibiting the proliferation of MMR-deficient cancer cells over isogenic MMR-proficient cells. General DNA damaging agents, such as cisplatin and etoposide, in contrast, are less effective in the induced cell line defective in MMR.

Finally, we describe a new subclass of metalloinsertors with enhanced potency and selectivity, in which the complexes show Rh-O coordination. In particular, it has been found that both Δ and Λ enantiomers of [Rh(chrysi)(phen)(DPE)]²⁺ bind to DNA with similar affinities, suggesting a possible different binding conformation than previous metalloinsertors. Remarkably, all members of this new family of compounds have significantly increased potency in a range of cellular assays; indeed, all are more potent than the FDA-approved anticancer drugs cisplatin and MNNG. Moreover, these activities are coupled with high levels of selectivity for MMR-deficient cells.

Biological Activity of Rhodium Metalloinsertors and the Design of Bifunctional Conjugates

The Barton laboratory has established that octahedral rhodium complexes bearing the sterically expansive 5,6-chrysene diimine ligand can target thermodynamically destabilized sites, such as base pair mismatches, in DNA with high affinity and selectivity. These complexes approach DNA from the minor groove, ejecting the mismatched base pairs from the duplex in a binding mode termed metalloinsertion. In recent years, we have shown that these metalloinsertor complexes also exhibit cytotoxicity preferentially in cancer cells that are deficient in the mismatch repair (MMR) machinery.

Here, we establish that a sensitive structure-activity relationship exists for rhodium metalloinsertors. We studied the relationship between the chemical structures of metalloinsertors and their effect on biological activity for ten complexes with similar DNA binding affinities, but wide variation in their lipophilicity. Drastic differences were observed in the selectivities of the complexes for MMR-deficient cells. Compounds with hydrophilic ligands were highly selective, exhibiting preferential cytotoxicity in MMR-deficient cells at low concentrations and short incubation periods, whereas complexes with lipophilic ligands displayed poor cell-selectivity. It was discovered that all of the complexes localized to the nucleus in concentrations sufficient for mismatch binding; however, highly lipophilic complexes also exhibited high mitochondrial uptake. Significantly, these results support the notion that mitochondrial DNA is not the desired target for our metalloinsertor complexes; instead, selectivity stems from targeting mismatches in genomic DNA.

We have also explored the potential for metalloinsertors to be developed into more complex structures with multiple functionalities that could either enhance their overall potency or impart mismatch selectivity onto other therapeutic cargo. We have constructed a family of bifunctional metalloinsertor conjugates incorporating cis-platinum, each unique in its chemical structure, DNA binding interactions, and biological activity. The study of these complexes in MMR-deficient cells has established that the cell-selective biological activity of rhodium metalloinsertors proceeds through a critical cellular pathway leading to necrosis.

We further explored the underlying mechanisms surrounding the biological response to mismatch recognition by metalloinsertors in the genome. Immunofluorescence assays of MMR-deficient and MMR-proficient cells revealed that a critical biomarker for DNA damage, phosphorylation of histone H2AX (γH2AX) rapidly accumulates in response to metalloinsertor treatment, signifying the induction of double strand breaks in the genome. Significantly, we have discovered that our metalloinsertor complexes selectively inhibit transcription in MMR-deficient cells, which may be a crucial checkpoint in the eventual breakdown of the cell via necrosis. Additionally, preliminary in vivo studies have revealed the capability of these compounds to traverse the complex environments of multicellular organisms and accumulate in MMR-deficient tumors. Our ever-increasing understanding of metalloinsertors, as well as the development of new generations of complexes both monofunctional and bifunctional, enables their continued progress into the clinic as promising new chemotherapeutic agents.

Curso temporal dos efeitos da exposição à nicotina durante a lactação no sistema colinérgico cerebral de ratos

A Organização Mundial da Saúde estima que existam aproximadamente 250 milhões de mulheres tabagistas no mundo. Em países em desenvolvimento, a prevalência do tabagismo pode variar de 11 a 35% em mulheres grávidas, constituindo um problema de saúde pública. Nicotina, um agonista colinérgico considerado o mais importante componente ativo da fumaça do cigarro, é capaz de causar déficits em um cérebro em desenvolvimento, no entanto, muitos estudos investigam estes efeitos durante a gestação de roedores, que corresponde aos dois primeiros trimestres de gestação em humanos. O presente estudo, foi focado nos efeitos da nicotina sobre o sistema colinérgico cerebral durante o equivalente ao terceiro trimestre de gestação em humanos. Ratas lactantes foram expostas a nicotina (NIC, 6 mg/Kg/dia) ou a salina (SAL) via mini-bombas osmóticas (s.c.) a partir do 2 dia ate o 16 dia pós-natal (PN). Filhotes NIC e SAL foram sacrificados durante a exposição, em PN15, e após a retirada em três momentos diferentes, PN21, PN30 e em PN90. Quatro biomarcadores foram considerados. Para avaliação dos efeitos sobre os receptores nicotínicos de acetilcolina (nAChRs), nós utilizamos [3H]citisina, que é um ligante seletivo para α4β2. Nos também medimos o marcador [3H]hemicholinium-3 (CH-3) de alta afinidade para o transportador pré-sináptico de colina, e a atividade das enzimas colina acetiltransferase (ChAT) e acetilcolinesterase (AChE) no córtex cerebral (CX), mesencéfalo (MB) e hipocampo (HP) na prole. O grupo NIC apresentou supra-regulação de nAChRs em todas as regiões durante a exposição, este efeito foi revertido pouco tempo após a retirada. Interessantemente, uma significante infra-regulação de nAChRs foi observada após um longo tempo da retirada somente em CX. A exposição à nicotina reduziu a marcação para HC-3 durante a exposição em todas as regiões e foi revertida em PN21. Já em PN30, o grupo NIC apresentou uma diminuição do HC-3. Em contraste, em PN90, foi observado um aumento de HC-3. Não foram observados efeitos para atividade da ChAT e da AChE em CX. No que diz respeito ao MB, o grupo NIC apresentou um aumento de atividade para ambas as enzimas, ChAT e AChE, em PN30. Para a mesma idade, nos observamos um decréscimo desta atividade somente em HP. E, após um longo tempo de retirada, somente HP apresentou um aumento na atividade da ChAT. Estes dados sugerem que a exposição à nicotina em ratos durante o equivalente ao terceiro trimestre de gestação em humanos promove alterações no sistema colinérgico dos filhotes. Somado a isto, nossos resultados indicam que os efeitos prejudiciais são observáveis mesmo muito tempo após a exposição ter sido interrompida.

Caracterização da expressão gênica dos receptores colinérgicos nicotínicos (CHRNs) no epitélio esofágico normal e em carcinoma epidermóide de esôfago

O câncer de esôfago (CE) é uma doença extremamente agressiva e é um dos tumores mais incidentes e letais no Brasil e no mundo, sendo o carcinoma epidermóide de esôfago (CEE) o principal subtipo histológico, apresentando como principais fatores de risco o etilismo e o tabagismo na população ocidental. A exposição concomitante desses dois fatores representa um risco multiplicador para o desenvolvimento de CEE, sendo que o fumo parece ter um papel importante tanto na iniciação quanto na promoção do tumor, enquanto o álcool teria um papel mais relevante na promoção. Componentes do tabaco, como a nicotina e as nitrosaminas são potentes carcinógenos e agonistas de alta afinidade dos receptores colinérgicos nicotínicos (CHRNs), podendo atuar ativando vias de sinalização celular fundamentais para a progressão tumoral. Pouco se sabe sobre a expressão e regulação dos CHRNs na mucosa esofágica e no processo de carcinogênese desse tecido. Assim, o objetivo desse trabalho foi analisar a expressão gênica dos CHRNs no epitélio esofágico normal e em CEE, bem como sua regulação pelos fatores de risco associados ao tumor. Foi observado que as subunidades α3, α5, α7 e β4 são expressas no epitélio esofágico saudável humano enquanto as subunidades α1, α4, α9 e α10 apresentaram baixa ou nenhuma expressão nesse mesmo tecido. Além disso, foram encontradas diferenças de expressão das subunidades α3 e α7 em indivíduos etilistas e tabagistas quando comparados com indivíduos não-etilistas (subunidade α3) e não-tabagistas (subunidade α7). Nas amostras de CEE, as subunidades CHRNA5 e CHRNA7 foram encontradas superexpressas no tumor quando comparado ao tecido normal adjacente e observou-se diferença de expressão da subunidade α7 no tumor comparado com o tecido saudável e a subunidade β4 apresentou-se mais expressa no tecido tumoral e no tecido normal adjacente ao tumor do que no epitélio esofágico saudável. Entretanto, não foram encontradas diferenças de expressão de nenhuma das subunidades avaliadas nas linhagens CEE quando submetidas a tratamento com nicotina ou etanol. Os resultados obtidos sugerem uma participação dos CHRNs na fisiologia do epitélio esofágico e que os fatores de risco associados ao desenvolvimento de CEE parecem ser capazes de afetar a expressão desses receptores no epitélio esofágico.

Biossorção de lantânio por Sargassum sp.: ensaios em batelada e contínuos

Diante dos avanços tecnológicos, pesquisadores têm intensificado a busca por métodos de remoção de metais, que tragam bons resultados de captação a partir de efluentes contaminados, aliados a um baixo custo. A utilização de materiais biológicos como algas marinhas, fungos e bactérias vem se destacando e se tornando uma solução atrativa quando comparados com os tratamentos químicos convencionais; essa técnica é denominada biossorção. A biossorção é um processo de captação de íons metálicos de uma solução, a partir de interações entre o metal e determinados sítios ativos presentes na parede celular da biomassa. Existe também um crescente interesse pelo estudo dos elementos de terras raras (TR) por possuirem alto valor agregado, acarretado por processos caros e de alta complexidade na sua separação e purificação. Desta forma, este trabalho teve como objetivo descrever o potencial de biossorção de lantânio - um representante dos TR - pela macroalga Sargassum sp., a partir de soluções aquosas. Para isso foram realizados estudos em batelada, aplicando modelos cinéticos e de equilíbrio, e estudos em regime contínuo de biossorção dos íons de lantânio (III), além de um sistema contínuo bimetálico, no qual houve a adição do metal cério, outro TR. As determinações analíticas foram realizadas por espectrometria de emissão ótica por plasma indutivamente acoplado. Os ensaios cinéticos foram realizados nas concentrações metálicas de 10 e 100 mg.L-1 e em duas concentrações distintas de biomassa 2 e 5 g.L-1 na temperatura de 301C. Dois modelos cinéticos foram testados, pseudo-primeira ordem e segunda ordem, tendo o modelo de segunda ordem apresentado melhor ajuste dos dados, com r2 igual a 0,9697. No ensaio de equilíbrio foi construída a isoterma que apresentou um perfil crescente na captação no entanto não alcançou a remoção máxima. Os modelos de Langmuir e Freundlich foram utilizados para ajustar os dados da isoterma, sendo verificado maior correlação dos dados com o modelo de Langmuir; resultando num valor de captação máxima calculado pelo modelo de 3,55 mmol.g-1. No ensaio dinâmico foram realizados dois experimentos, 1 e 2. O Experimento 1 foi realizado com três colunas interligadas e recheadas com 20g de biomassa cada, sendo bombeada uma solução aquosa de lantânio na concentração de 1,41mmol.L-1. O Experimento 2 foi constituido de uma solução contendo lantânio e cério ambos na mesma concentração anterior de 1,41 mmol.L-1, sendo bombeada somente para uma única coluna recheada com 20g de biomassa. Os resultados demonstraram que o ponto de saturação não foi atingido dentro das 8 horas em que se deu o processo, o que indica a alta afinidade da Sargassum sp. pelo lantânio e que a presença do cério associada a redução da vazão prejudicou a captação do lantânio

噬菌体434单链阻遏蛋白的高亲和力DNA结合序列的设计和筛选

一． 设计和筛选单链阻遏蛋白的高亲和力DNA结合序列 　　单链阻遏蛋白RRTRES是噬菌体434阻遏蛋白的衍生物，它是噬菌体434阻 遏蛋白的N端DBD(1-69位氨基酸)组成的共价二聚体。这个单链分子有两个DBD，一个是野生型噬菌体434的DBD-R，另一个是突变了的DBD - RTRES，二者用重组接头以头接尾的方式连接起来。在RTRES的α3-螺旋中．1、1、2、5位氨基酸与DNA识别紧密相关，它们分别为T、R、E、S。为了筛选出突变的RTRES的DNA结合位点，设计了核心序列为CATACAAGAAAGNNNNNNTTTATG随机DNA库，通过RRTRES与随机DNA库的体外结合和循环筛选。将筛选到的群体克隆并测序。通过与单链阻遏蛋白RRTRES的亲和力测定，对每一个筛选到的序列进行特性分析。结果表明，当结合位点（上述划线部分）为TTAC或TTCC时为最适操纵区序列。它们与单链阻遏蛋白RRTRES的亲和力很高，Kd值在1-10pM的范围。其中随机部分为TTTACG的操纵区与RRTRES的亲和力最高，Kd值约为lpM;当结合位点为TTAC时，平均Kd值为3pM：当结合位点为 TTCC时，Kd值在5-lOpM之间。天然噬菌体434阻遏蛋白与其操纵区的亲和力的Kd值在nM数量级，与之相比，所筛选操纵区的亲和力明显提高。此外，亲和力大小还受到结合位点两侧的碱基的影响，特别是5'位碱基的影响。 　　表达纯化同源双突变的单链阻遏蛋白RTRESRTRE'根据RTRES的以上识别特一点，设计了一系列新的操纵区序列，它们的共有序列为GTAAGAAARNTTACN，或GGAAGAAARNTTCCN，并测定它们与RTRES RTRE之间的结合特异性。结果表明，它们可被RTRES RTRES特异识别，且亲和力也很高，Kd值在5-40pM之间。其中GTAAGAAAGTTTACG与RTRES RTRES之间结合的Kd值约为5pM。同样，表达了异源双突变的单链阻遏蛋白R*RTRES，然而它与 设计的相关操纵区的亲和力并不很高，Kd值约为lOOpM。利用本工作中的随机筛选和合理设计的原则，得到了新的具有特异性识别和高亲和力的蛋白一DNA相互作用。这个方法可望用于其他DBP的新的结合特异性的筛选。 二． 非同位素的方法筛选单链阻遏蛋白的最佳DNA结合序列初探 　　克隆和表达了带半胱氨酸尾的单链阻遏蛋白，利用已包被了马来酰胺的活性板可以与自由巯基结合的特性，将蛋白固定在活性板表面。体外筛选RTRES RTRES的最佳DNA结合序列，得到了一些与RTRES RTRES结合的序列，但Kd值nM数量级。此方法需进一步优化。

Binding of radio-iodinated gonadotropin to the ovary of exotic carp (Cyprinus carpio Lin.)

Heterologous murrel gonadotropic hormone (m-GtH) binds to common carp oocyte plasma membrane and enhances steroid secretion. With increasing concentration of radio-labelled hormone the receptor binding is also found to increase linearly up to a certain concentration and then decrease. The [¹²⁵I] murrel GtH binding characteristics to a preparation of common carp ovarian plasma membrane shows saturability with high affinity. Scat chard plot analysis gave dissociation constant (Kd) of 0.81 X 10(super -9) M and maximum binding capacity (MBC) of 22.05 f mole/mg protein.