Vanessa M. D'Souza scite author profile

This study characterizes the expression and function of the peptide transporter hPepT2 (SLC15A2) in differentiated primary cultures of human upper airway lung epithelia obtained from six human donors. Genotype analysis of a SNP in exon 15 of hPepT2 genotypes in six donors revealed an expected distribution of the two main variants present at similar frequency (two AA homozygotes, two BB homozygotes, and two AB heterozygotes). Real-time PCR analysis of the hPepT2 mRNA message revealed no significant differences among genotypes. hPEPT2 was expressed on the apical membrane in all donor specimens, demonstrated by cell surface biotinylation and Western analysis (104 kD). We then compared transepithelial transport of the prototypical substrate (3)H-glycylsarcosine in all donor cultures in the absence and presence of known inhibitors of hPEPT2 to ascertain the phenotype of functionally expressed hPepT2 in the upper airway epithelium. An array of inhibitors included dipeptides, beta-lactam antibiotics, bestatin, and ACE inhibitors. hPEPT2 exhibited saturable Michaelis-Menten-type kinetic parameters for GlySar, corroborating previously reported values for K(T) and J(max). Donor-to-donor variation of transport for different substrates did not correlate with hPepT2 haplotypes in this sample cohort. These findings demonstrate functional hPEPT2 transporter expression in primary cultures of human lung epithelial cells. hPEPT2-mediated transport could serve as a strategy for noninvasive systemic delivery of peptides and peptidomimetics drugs.

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Extracellular Glucose Concentration Alters Functional Activity of the Intestinal Oligopeptide Transporter (PepT-1) in Caco-2 Cells

D'Souza

Buckley

et al. 2003

Journal of Pharmaceutical Sciences

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cAMP-Coupled Riboflavin Trafficking in Placental Trophoblasts: A Dynamic and Ordered Process

et al. 2006

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Riboflavin (RF, vitamin B(2)), an essential micronutrient central to cellular metabolism through formation of flavin mononucleotide (FMN) and flavin adenine dinucleotide (FAD) cofactors, is internalized, at least in part, via a proposed receptor-mediated endocytic (RME) process. The purpose of this study was to delineate the cellular RF distribution using human placental trophoblasts and evaluate the regulatory role of cAMP in this process. Subcellular fractionation and three-dimensional confocal microscopy analyses were carried out to define the RF accumulation profile. Biochemical assays evaluating the cAMP dependence of this pathway were also performed. This study records an intracellular RF distribution pattern that shows dynamic accumulation of the ligand predominantly in the endosomal and lysosomal compartments and to a lesser extent in the Golgi and mitochondria. In contrast, transferrin (TF) colocalizes rapidly within endosomes with minimal accumulation in the other organelles. The temporal and spatial distribution of RF and TF colocalized with unique markers of the endocytic machinery provides added morphological evidence in support of the RME process with ultimate translocation to the mitochondrial domain. Colocalized staining with the Golgi also suggests a possible recycling or exocytic mechanism for this ligand. Furthermore, this study demonstrates cAMP regulation of the putative ligand-bound RF receptor and its association into endocytic vesicles. Delineating the dynamics of the process governing cellular RF homeostasis presents an untapped resource that can be further exploited in improving our current understanding of nutritional biology and fetal growth and development, and perhaps in targeting the endogenous system for developing novel therapeutic approaches.

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Vanessa M. D'Souza

In Vitro and Pharmacophore-Based Discovery of Novel hPEPT1 Inhibitors

Functional Characterization of the Peptide Transporter PEPT2 in Primary Cultures of Human Upper Airway Epithelium

Extracellular Glucose Concentration Alters Functional Activity of the Intestinal Oligopeptide Transporter (PepT-1) in Caco-2 Cells

cAMP-Coupled Riboflavin Trafficking in Placental Trophoblasts: A Dynamic and Ordered Process

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