TopicalPdb: A database of topically delivered peptides

TopicalPdb (http://crdd.osdd.net/raghava/topicalpdb/) is a repository of experimentally verified topically delivered peptides. Data was manually collected from research articles. The current release of TopicalPdb consists of 657 entries, which includes peptides delivered through the skin (462 entries), eye (173 entries), and nose (22 entries). Each entry provides comprehensive information related to these peptides like the source of origin, nature of peptide, length, N- and C-terminal modifications, mechanism of penetration, type of assays, cargo and biological properties of peptides, etc. In addition to natural peptides, TopicalPdb contains information of peptides having non-natural, chemically modified residues and D-amino acids. Besides this primary information, TopicalPdb stores predicted tertiary structures as well as peptide sequences in SMILE format. Tertiary structures of peptides were predicted using state-of-art method PEPstrMod. In order to assist users, a number of web-based tools have been integrated that includes keyword search, data browsing, similarity search and structural similarity. We believe that TopicalPdb is a unique database of its kind and it will be very useful in designing peptides for non-invasive topical delivery.

[1]  E. Novellino,et al.  Design and Synthesis of New Cell Penetrating Peptides: Diffusion and Distribution Inside the Cornea. , 2016, Molecular pharmaceutics.

[2]  Yongzhuo Huang,et al.  Nose-to-brain delivery of macromolecules mediated by cell-penetrating peptides , 2016, Acta pharmaceutica Sinica. B.

[3]  A. Mitra,et al.  Ocular Drug Delivery , 1990 .

[4]  Kumardeep Chaudhary,et al.  PEPstrMOD: structure prediction of peptides containing natural, non-natural and modified residues , 2015, Biology Direct.

[5]  Sarah Hedtrich,et al.  Recent advances in topical delivery of proteins and peptides mediated by soft matter nanocarriers. , 2015, Biotechnology advances.

[6]  Qinghua Hu,et al.  HAlign: Fast multiple similar DNA/RNA sequence alignment based on the centre star strategy , 2015, Bioinform..

[7]  L. B. Lopes,et al.  Potential of peptide-based enhancers for transdermal delivery. , 2015, Current pharmaceutical design.

[8]  W. Banks,et al.  Intranasal Delivery of Proteins and Peptides in the Treatment of Neurodegenerative Diseases , 2015, The AAPS Journal.

[9]  N. Kamei,et al.  Brain delivery of insulin boosted by intranasal coadministration with cell-penetrating peptides. , 2015, Journal of controlled release : official journal of the Controlled Release Society.

[10]  David S. Goodsell,et al.  The RCSB Protein Data Bank: views of structural biology for basic and applied research and education , 2014, Nucleic Acids Res..

[11]  T. Hoffmann,et al.  Peptide therapeutics: current status and future directions. , 2015, Drug discovery today.

[12]  Joana Sousa,et al.  Intranasal delivery of systemic-acting drugs: small-molecules and biomacromolecules. , 2014, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[13]  Yang Zhang,et al.  The I-TASSER Suite: protein structure and function prediction , 2014, Nature Methods.

[14]  Carol S. Lim,et al.  Basics and recent advances in peptide and protein drug delivery. , 2013, Therapeutic delivery.

[15]  J. Reichert,et al.  Future directions for peptide therapeutics development. , 2013, Drug discovery today.

[16]  E. Azizi,et al.  Cell‐penetrating Peptides as a Novel Transdermal Drug Delivery System , 2012, Chemical biology & drug design.

[17]  Bruce H. Morimoto,et al.  Drug development of intranasally delivered peptides. , 2012, Therapeutic delivery.

[18]  Chris Morley,et al.  Open Babel: An open chemical toolbox , 2011, J. Cheminformatics.

[19]  Jitendra,et al.  Noninvasive Routes of Proteins and Peptides Drug Delivery , 2011, Indian journal of pharmaceutical sciences.

[20]  Lokesh Joshi,et al.  Comparative Study of the Skin Penetration of Protein Transduction Domains and a Conjugated Peptide , 2005, Pharmaceutical Research.

[21]  Robert C. Edgar,et al.  MUSCLE: multiple sequence alignment with high accuracy and high throughput. , 2004, Nucleic acids research.

[22]  J. Gill,et al.  Evaluation of high concentration intranasal and intravenous desmopressin in pediatric patients with mild hemophilia A or mild-to-moderate type 1 von Willebrand disease. , 2002, The Journal of pediatrics.

[23]  D. Dartt,et al.  Stimulation of tear secretion by topical agents that increase cyclic nucleotide levels. , 1990, Investigative ophthalmology & visual science.

[24]  K. Krootila CGRP in relation to neurogenic inflammation and cAMP in the rabbit eye. , 1988, Experimental eye research.