2D MI-DRAGON: A new predictor for protein–ligands interactions and theoretic-experimental studies of US FDA drug-target network, oxoisoaporphine inhibitors for MAO-A and human parasite proteins

Histamine is a neurotransmitter responsible for central regulation of inflammatory reactions. Initial studies were done by Sir Henry Dale in 1993. Histamine acts on its four type of receptors. H1 and H2 are well-established with pharmacological status. H1 receptors are mainly linked with inflammatory responses and developed to mitigate the inflammatory symptoms. While H2 antagonists are established with their role in decreasing basal gastric secretions by decreasing the cyclic adenylyl mono phosphate (cAMP), thus used as therapy line for gastric ulcers. H3 being located centrally imparts its central effects in cognitive functions that are pain, sleep, and memory modulation of neurotransmitters release including, dopamine, acetylcholine, noradrenalin and serotonin. H4 is discovered recently during cloning of H3 and found on immune related cells as, mast cells, T cells and dendrites. Experimental studies are helping in development of more pharmacologically worth drugs that can increase the quality of life.

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Elucidating Signal Transduction Modulatory Drug Target Network of Colon Cancer: A Network Biology Approach

Nature Precedings ◽

10.1038/npre.2010.4709.1 ◽

2010 ◽

Author(s):

Deepak Ranjan Sethi ◽

Sanjay Kundu ◽

Ibnul Hassan ◽

Biplab Bhattacharjee ◽

Jayadeepa R.M ◽

...

Keyword(s):

Signal Transduction ◽

Colon Cancer ◽

Drug Target ◽

Network Biology ◽

Target Network

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Using entropy of drug and protein graphs to predict FDA drug-target network: Theoretic-experimental study of MAO inhibitors and hemoglobin peptides from Fasciola hepatica

European Journal of Medicinal Chemistry ◽

10.1016/j.ejmech.2011.01.023 ◽

2011 ◽

Vol 46 (4) ◽

pp. 1074-1094 ◽

Cited By ~ 29

Author(s):

Francisco Prado-Prado ◽

Xerardo García-Mera ◽

Paula Abeijón ◽

Nerea Alonso ◽

Olga Caamaño ◽

...

Keyword(s):

Experimental Study ◽

Drug Target ◽

Fasciola Hepatica ◽

Mao Inhibitors ◽

Target Network ◽

Protein Graphs

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Drug—target network

Nature Biotechnology ◽

10.1038/nbt1338 ◽

2007 ◽

Vol 25 (10) ◽

pp. 1119-1126 ◽

Cited By ~ 1142

Author(s):

Muhammed A Yıldırım ◽

Kwang-Il Goh ◽

Michael E Cusick ◽

Albert-László Barabási ◽

Marc Vidal

Keyword(s):

Drug Target ◽

Target Network

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A landscape for drug-target interactions based on network analysis

PLoS ONE ◽

10.1371/journal.pone.0247018 ◽

2021 ◽

Vol 16 (3) ◽

pp. e0247018

Author(s):

Edgardo Galan-Vasquez ◽

Ernesto Perez-Rueda

Keyword(s):

Drug Target ◽

Target Genes ◽

Metabolic Diseases ◽

Drug Repositioning ◽

Topological Analysis ◽

Interaction Network ◽

Clustering Coefficient ◽

Connected Components ◽

Target Interaction ◽

Target Network

In this work, we performed an analysis of the networks of interactions between drugs and their targets to assess how connected the compounds are. For our purpose, the interactions were downloaded from the DrugBank database, and we considered all drugs approved by the FDA. Based on topological analysis of this interaction network, we obtained information on degree, clustering coefficient, connected components, and centrality of these interactions. We identified that this drug-target interaction network cannot be divided into two disjoint and independent sets, i.e., it is not bipartite. In addition, the connectivity or associations between every pair of nodes identified that the drug-target network is constituted of 165 connected components, where one giant component contains 4376 interactions that represent 89.99% of all the elements. In this regard, the histamine H1 receptor, which belongs to the family of rhodopsin-like G-protein-coupled receptors and is activated by the biogenic amine histamine, was found to be the most important node in the centrality of input-degrees. In the case of centrality of output-degrees, fostamatinib was found to be the most important node, as this drug interacts with 300 different targets, including arachidonate 5-lipoxygenase or ALOX5, expressed on cells primarily involved in regulation of immune responses. The top 10 hubs interacted with 33% of the target genes. Fostamatinib stands out because it is used for the treatment of chronic immune thrombocytopenia in adults. Finally, 187 highly connected sets of nodes, structured in communities, were also identified. Indeed, the largest communities have more than 400 elements and are related to metabolic diseases, psychiatric disorders and cancer. Our results demonstrate the possibilities to explore these compounds and their targets to improve drug repositioning and contend against emergent diseases.

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Discovery of 20 novel ribosomal leaders in bacteria and archaea

10.1101/2020.01.29.924993 ◽

2020 ◽

Author(s):

Iris Eckert ◽

Zasha Weinberg

Keyword(s):

Protein Interactions ◽

Ribosomal Proteins ◽

Experimental Studies ◽

Regulatory Function ◽

Rna Structures ◽

Transcription Start Sites ◽

Protein Ligands ◽

Starting Point ◽

Domains Of Life ◽

Additional Protein

AbstractBackgroundRNAs perform many functions in addition to supplying coding templates, such as binding proteins. RNA-protein interactions are important in multiple processes in all domains of life, and the discovery of additional protein-binding RNAs expands the scope for studying such interactions. To find such RNAs, we exploited a form of ribosomal regulation. Ribosome biosynthesis must be tightly regulated to ensure that concentrations of rRNAs and ribosomal proteins (r-proteins) match. One regulatory mechanism is a ribosomal leader (r-leader), which is a domain in the 5′ UTR of an mRNA whose genes encode r-proteins. When the concentration of one of these r-proteins is high, the protein binds the r-leader in its own mRNA, reducing gene expression and thus protein concentrations. To date, 35 types of r-leaders have been validated or predicted.ResultsBy analyzing additional conserved RNA structures on a multi-genome scale, we identified 20 novel r-leader structures. Surprisingly, these included new r-leaders in the highly studied organisms Escherichia coli and Bacillus subtilis. Our results reveal several cases where multiple unrelated RNA structures likely bind the same r-protein ligand, and uncover previously unknown r-protein ligands. Each r-leader consistently occurs upstream of r-protein genes, suggesting a regulatory function. That the predicted r-leaders function as RNAs is supported by evolutionary correlations in the nucleotide sequences that are characteristic of a conserved RNA secondary structure. The r-leader predictions are also consistent with the locations of experimentally determined transcription start sites.ConclusionsThis work increases the number of known or predicted r-leader structures by more than 50%, providing additional opportunities to study structural and evolutionary aspects of RNA-protein interactions. These results provide a starting point for detailed experimental studies.

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