Raimundo Ubieta scite author profile

Novel therapeutic peptides are increasingly making their way into clinical application. The cationic and amphipathic properties of certain peptides allow them to cross biological membranes in a non-disruptive way without apparent toxicity increasing drug bioavailability. By modifying the primary structure of the Limulus-derived LALF(32-51) peptide we designed a novel peptide, L-2, with antineoplastic effect and cell-penetrating capacity. Interestingly, L-2 induced cellular cytotoxicity in a variety of tumor cell lines and systemic injection into immunocompetent and nude mice bearing established solid tumor, resulted in substantial regression of the tumor mass and apoptosis. To isolate the gene transcripts specifically regulated by L-2 in tumor cells, we conducted suppressive subtractive hybridization (SSH) analysis and identified a set of genes involved in biological processes relevant to cancer biology. Our findings describe a novel peptide that modifies the gene expression of the tumor cells and exhibits antitumor effect in vivo, indicating that peptide L-2 is a potential candidate for anticancer therapy.

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Identification of Vimentin as a Potential Therapeutic Target against HIV Infection

Fernández-Ortega

Ramírez

Casillas

et al. 2016

Viruses

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A combination of antiviral drugs known as antiretroviral therapy (ART) has shown effectiveness against the human immunodeficiency virus (HIV). ART has markedly decreased mortality and morbidity among HIV-infected patients, having even reduced HIV transmission. However, an important current disadvantage, resistance development, remains to be solved. Hope is focused on developing drugs against cellular targets. This strategy is expected to prevent the emergence of viral resistance. In this study, using a comparative proteomic approach in MT4 cells treated with an anti-HIV leukocyte extract, we identified vimentin, a molecule forming intermediate filaments in the cell, as a possible target against HIV infection. We demonstrated a strong reduction of an HIV-1 based lentivirus expressing the enhanced green fluorescent protein (eGFP) in vimentin knockdown cells, and a noteworthy decrease of HIV-1 capsid protein antigen (CAp24) in those cells using a multiround infectivity assay. Electron micrographs showed changes in the structure of intermediate filaments when MT4 cells were treated with an anti-HIV leukocyte extract. Changes in the structure of intermediate filaments were also observed in vimentin knockdown MT4 cells. A synthetic peptide derived from a cytoskeleton protein showed potent inhibitory activity on HIV-1 infection, and low cytotoxicity. Our data suggest that vimentin can be a suitable target to inhibit HIV-1.

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Expression and folding of an interleukin‐2‐proinsulin fusion protein and its conversion into insulin by a single step enzymatic removal of the C‐peptide and the N‐terminal fused sequence

et al. 1996

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We report the expression in E. coli of a proinsulin fusion protein carrying a modified interleukin-2 N-terminal peptide linked to the N-terminus of proinsulin by a lysine residue. The key aspects investigated were: (a) the expression of the fused IL2-PI gene, (b) the folding efficiency of the insulin precursor when still carrying the N-fused peptide and (c) the selectivity of the enzymatic cleavage reaction with trypsin in order to remove simultaneously the C-peptide and the N-terminal extension. It was found that this construction expresses the chimeric proinsufin at high level (20%) as inclusion bodies; the fused protein was refolded at 100-200/xg/ml to yield about 80% of correctly folded proinsulin and then it was converted into insulin by prolonged reaction (5 h) with trypsin and carboxypeptidase B at a low enzymelsubstrate rate (I :600). This approach is based on a single enzymatic reaction for the removal of both the N-terminal fused peptide and the C-peptide and avoids the use of toxic cyanogen bromide.

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Production and characterization of human gamma interferon from Escherichia coli

Pérez

Vega

Chuay

et al. 1990

Appl Microbiol Biotechnol

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The production of human gamma interferon as intracellular inclusion bodies in Escherichia coli, which simplified the purification process, is described. An expression plasmid carrying lipoprotein and the tryptophane promoters in tandem was used. Preparation of highly pure interferon was achieved using high resolution chromatography after denaturation and renaturation steps. Structural characteristics of this protein were verified by mass spectrometric analysis. Additional control tests have shown the suitability of the final product for clinical purposes.

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BDNF up-regulates pre-pro-TRH mRNA expression in the fetal/neonatal paraventricular nucleus of the hypothalamus. Properties of the transduction pathway

Ubieta

Uribe²,

González³

et al. 2007

Brain Research

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Raimundo Ubieta

Identification of a novel antitumor peptide based on the screening of an Ala‐library derived from the LALF_32–51 region

Identification of Vimentin as a Potential Therapeutic Target against HIV Infection

Expression and folding of an interleukin‐2‐proinsulin fusion protein and its conversion into insulin by a single step enzymatic removal of the C‐peptide and the N‐terminal fused sequence

Production and characterization of human gamma interferon from Escherichia coli

BDNF up-regulates pre-pro-TRH mRNA expression in the fetal/neonatal paraventricular nucleus of the hypothalamus. Properties of the transduction pathway

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Raimundo Ubieta

Identification of a novel antitumor peptide based on the screening of an Ala‐library derived from the LALF32–51 region

Identification of Vimentin as a Potential Therapeutic Target against HIV Infection

Expression and folding of an interleukin‐2‐proinsulin fusion protein and its conversion into insulin by a single step enzymatic removal of the C‐peptide and the N‐terminal fused sequence

Production and characterization of human gamma interferon from Escherichia coli

BDNF up-regulates pre-pro-TRH mRNA expression in the fetal/neonatal paraventricular nucleus of the hypothalamus. Properties of the transduction pathway

Contact Info

Product

Resources

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Identification of a novel antitumor peptide based on the screening of an Ala‐library derived from the LALF_32–51 region