Amylovis-201 is a new dual-target ligand, acting as an anti-amyloidogenic compound and a potent agonist of the chaperone protein.

The aggregation of Amyloid- (A) peptides is associated with neurodegeneration in Alzheimer's disease (AD). We previously identified novel naphtalene derivatives, including the lead compound Amylovis-201, able to form thermodynamically stable complexes with A species, peptides and fibrils. As the drug showed a chemical scaffold coherent for an effective interaction with the receptor chaperone and as agonists are currently developed as potent neuroprotectants in AD, we investigated the pharmacological action of Amylovis-201 on the receptor.

Amylovis-201 enhances physiological memory formation and rescues memory and hippocampal cell loss in a streptozotocin-induced Alzheimer's disease animal model.

Alzheimer's disease is the most common neurodegenerative disease, and its treatment is lacking. In this work, we tested Amylovis-201, a naphthalene-derived compound, as a possible therapeutic candidate for the treatment of AD. For this purpose, we performed three experiments.

Evaluating Cerebral Perfusion in Alzheimer Patients and First-Degree Relatives: Lessons from Artemisa Province, Cuba.

Introduction: Alzheimer disease is related to several risk factors including aging, family history, high blood pressure and diabetes. Studies have shown specific regional cerebral perfusion changes in patients with Alzheimer disease. Some authors state that these changes could appear years before patient memory becomes impaired, enabling early diagnosis in high-risk persons who appear to be healthy.

A new naphthalene derivative with anti-amyloidogenic activity as potential therapeutic agent for Alzheimer's disease.

The aggregation of β-amyloid peptides is associated to neurodegeneration in Alzheimer's disease (AD) patients. Consequently, the inhibition of both oligomerization and fibrillation of β-amyloid peptides is considered a plausible therapeutic approach for AD. Herein, the synthesis of new naphthalene derivatives and their evaluation as anti-β-amyloidogenic agents are presented.

[F]Amylovis as a Potential PET Probe for β-Amyloid Plaque: Synthesis, In Silico, In vitro and In vivo Evaluations.

Background: Alzheimer's disease (AD) is the most common form of dementia. Neuroimaging methods have widened the horizons for AD diagnosis and therapy. The goals of this work are the synthesis of 2-(3-fluoropropyl)-6-methoxynaphthalene (5) and its [18F]-radiolabeled counterpart ([18F]Amylovis), the in silico and in vitro comparative evaluations of [18F]Amylovis and [11C]Pittsburg compound B (PIB) and the in vivo preclinical evaluation of [18F]Amylovis in transgenic and wild mice.

Diabetes Drug Discovery: hIAPP Polymorphic Amyloid Structures as Novel Therapeutic Targets.

Human islet amyloid peptide (hIAPP) aggregation is an early step in Diabetes Mellitus. We aimed to evaluate a family of pharmaco-chaperones to act as modulators that provide dynamic interventions and the multi-target capacity (native state, cytotoxic oligomers, protofilaments and fibrils of hIAPP) required to meet the treatment challenges of diabetes. We used a cross-functional approach that combines in silico and in vitro biochemical and biophysical methods to study the hIAPP aggregation-oligomerization process as to reveal novel potential anti-diabetic drugs.

Drug Development in Conformational Diseases: A Novel Family of Chemical Chaperones that Bind and Stabilise Several Polymorphic Amyloid Structures.

The increasing prevalence of conformational diseases, including Alzheimer's disease, type 2 Diabetes Mellitus and Cancer, poses a global challenge at many different levels. It has devastating effects on the sufferers as well as a tremendous economic impact on families and the health system. In this work, we apply a cross-functional approach that combines ideas, concepts and technologies from several disciplines in order to study, in silico and in vitro, the role of a novel chemical chaperones family (NCHCHF) in processes of protein aggregation in conformational diseases.

DNA-labelled cytidine assay for the quantification of CAG repeats.

The sequencing procedure has been used to determine the size of the CAG repeat expansion for the diagnosis of genetic disorders. Likewise, standard polymerase chain reaction (PCR) and gel electrophoresis techniques are applied for screening large number of patients. The trinucleotide repeats (TNR) region amplification by means of the PCR procedure was initially performed using 32-P end-labelled primers and currently carried out with fluorescently end-labelled primers.

Study of the peptide length and amino acid specific substitution in the antigenic activity of the chimeric synthetic peptides, containing the p19 core and gp46 envelope proteins of the HTLV-I virus.

Four chimeric synthetic peptides (Q5, Q6, Q7(multiply sign in circle), and Q8(multiply sign in circle)), incorporating immunodominant epitopes of the core p19 (105-124 a.a.) and envelope gp46 proteins (175-205 a.

Antigenic mixture of synthetic peptides for the immunodiagnosis of HTLV I/II infection.

Monomeric and chimeric synthetic peptides were used as coating antigens in four different mixtures in a solid phase immunoassay to select an optimal combination for the detection of antibodies to human T-cell lymphotropic virus (HTLV) in serum samples. The peptides, P-13 (gp21 I), Q5 (gp21 II)-GG-(gp46 II), and Q (gp46 I)-GG-(p19 I), represent immunodominant sequences from transmembrane protein (gp21), envelope protein (gp46), and core protein (p19) of HTLV I/II viruses; they were the most antigenic and specific peptides in previous studies. The sequences of the chimeric peptides were separated by two glycine residues.

Antigenic activity of three chimeric synthetic peptides of the transmembrane (gp41) and the envelope (gp120) glycoproteins of HIV-1 virus.

The antigenicity of three chimeric synthetic peptides (Qm, Qm-16, and Qm-17) incorporating an immunodominant epitope of the gp41 transmembrane protein (587-617) and the different epitopes of the gp120 envelope protein (495-516), (301-335), (502-516) of human immunodeficiency virus (HIV-1), separated by two glycine residues, was evaluated by UltramicroEnzyme-linked immunosorbent assay (UMELISA) by using panels of anti-HIV-1 positive sera (n = 47). The specificity was evaluated with samples from healthy blood donors (n = 20) and anti-HIV-2 positive samples (n = 10). The results indicate that the chimeric peptide, Qm, was the most reactive one because it detected antibodies to virus efficiently.

Comparative study of three methods for non-radioactive in vivo DNA labeling in Escherichia coli using nucleoside analogs.

In the present work, a comparative study of 5-FdUrd, thy-, and metabolic in vivo labeling methods for plasmid and chromosomal DNA in E. coli DH5alpha cells was performed in order to achieve the best thymidine substitution method by 5-BrdUrd. According to the colorimetric immunoenzymatic results, we found that the minimal detectable labeled DNA (MDLD) was 312pg with the 5-FdUrd and thy- methods for 5-BrdUrd labeled plasmid DNA.

Use of a chimeric synthetic peptide from the core p19 protein and the envelope gp46 glycoprotein in the immunodiagnosis of HTLV-II virus infection.

A chimeric synthetic peptide incorporating immunodominant epitope of the p19 gag protein (116-134) and the gp46 env protein (178-200) of HTLV-II virus, separated by two glycine residues, was synthesized by conventional solid-phase peptide synthesis. The antigenic activity of this peptide was evaluated by Ultramicro Enzyme-linked immunosorbent assay (UMELISA) by using panels of anti-HTLV-II positive sera (n = 9), anti-HTLV-I/II positive sera (n = 2), HTLV-positive (untypeable) serum samples (n = 1),and anti-HTLV-I positive sera (n = 14), while specificity was evaluated with samples from healthy blood donors (n = 20). The efficacy of the chimeric peptide in solid-phase immunoassays was compared with the monomeric peptides.