Defining the Molecular Requirements for the Selective Delivery of Polyamine Conjugates into Cells Containing Active Polyamine Transporters

Wang, C; Delcros, Jean‐Guy; Cannon, Lisa; Konate, Fanta; Carias, Horacio; Biggerstaff, John; Ra, Gardner; th, Phanstiel Iv O

doi:10.1021/jm030223a

Cited by 98 publications

(165 citation statements)

References 52 publications

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“…The inhibition of placental polyamine synthesis is related to decreased placental size and lower fetal growth . Polyamines are organic compounds that are derived from ornithine by the arginase pathway, resulting in the synthesis of putrescine, spermidine and spermine (Lehninger et al, 1993;Wang et al, 2003). However, the polyamine synthesis in the porcine placenta is dependent on the conversion of arginine into ornithine and proline via the arginase pathway in other maternal tissues, as arginase activity is not detected in the maternal placenta (Wu et al, 2006).…”

Section: Sow Nutrition As An Opportunity To Improve Within-litter Unimentioning

confidence: 99%

Effects of sow nutrition during gestation on within-litter birth weight variation: a review

Campos

Silva²,

Donzele

et al. 2012

Animal

121

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The increasing demand for efficiency in pork production requires great specialization of all sectors involved in this activity. In this context, the development of strategies that could reduce undesirable traits related with negative effects on piglet survival and postnatal growth and development are essential for the pig industry. Currently, special attention is given to variation in birth weight, as some evidences suggest an increased within-litter birth weight variation in modern sows. This variation has been shown to be associated with preweaning mortality, variable weights at weaning and deteriorated growth performance, which results in economic losses and lower efficiency. Therefore, understanding the factors that can influence the events that occur during gestation and that have an impact on the fetal growth and development are important to achieve better efficiency and also to develop strategies that can be used to achieve increased within-litter uniformity of piglet birth weight. This study concludes that even at a given placental size, fetal growth may vary because of differences in placental vascularization and efficiency. Feeding extra feed or energy during late gestation only marginally improves birth weight, and positive effects are not consistent between different studies. The detrimental effects of protein restriction on fetal growth during early gestation may be due to altered placental and endometrial angiogenesis and growth, which leads to a reduction in placental-fetal blood flow, nutrient supply from mother to the fetuses and ultimately to fetal growth retardation. The number of studies that attempted to influence within-litter birth weight variation by means of sow nutrition during gestation is limited. Therefore, more research concerning sow nutrition during gestation associated with the provision of balanced diets to meet requirements of the sows and fetuses are still required. This knowledge may subsequently provide starting points for the design of nutritional strategies that can influence within-litter birth variation.

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Section: Sow Nutrition As An Opportunity To Improve Within-litter Unimentioning

confidence: 99%

Effects of sow nutrition during gestation on within-litter birth weight variation: a review

Campos

Silva²,

Donzele

et al. 2012

Animal

121

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“…All exhibit similar function -high water solubility and rapid entry into cells -but they differ structurally in many significant respects except for the key conserved oligoguanidinium array. In addition to peptides, peptoids, and oligocarbamates, many other types of molecular transporters have been identified that cover a range of structural classes, including polyamines [5,6], polysaccharides During the past decade, many significant and exciting advances have been reported from our and other laboratories related to the mechanisms of uptake of GRTs and especially to their use in mediating cell and tissue uptake. An octaarginine transporter linked to Cyclosporin A has also been advanced to phase II clinical trials for dermatological applications [18] and a Tat 9-mer linked to a biologically active peptide cargo has been advanced clinically for the treatment of ischemia [19].…”

Section: Introductionmentioning

confidence: 99%

The design of guanidinium-rich transporters and their internalization mechanisms

Wender

Galliher

Goun

et al. 2008

Advanced Drug Delivery Reviews

379

337

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The ability of a drug or probe to cross a biological barrier has historically been viewed to be a function of its intrinsic physical properties. This view has largely restricted drug design and selection to agents within a narrow log P range. Molecular transporters offer a strategy to circumvent these restrictions. In the case of guanidinium-rich transporters (GRTs), a typically highly water-soluble conjugate is found to readily pass through the non-polar membrane of a cell and for some across tissue barriers. This activity opens a field of opportunities for the use of GRTs to enable delivery of polar and nonpolar drugs or probes as well as to enhance uptake of those of intermediate polarity. The field of transporter enabled or enhanced uptake has grown dramatically in the last decade. Some GRT drug conjugates have been advanced into clinical trials. This review will provide an overview of recent work pertinent to the design and mechanism of uptake of GRTs.

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“…Many types of transporters have been reported in recent years including peptides (1)(2)(3)(4)(5), peptoids (6), polyamines (7,8), oligocarbamates (9), dendrimers (10,11), polysaccharides (12), steroids (13), cationic lipids (14,15), guanidinoglycosides (16), and even nanotubes (17). These transporters operate through a variety of mechanisms and some through multiple mechanisms depending on cell type, cargo, and other variables (5,(18)(19)(20)(21)(22).…”

mentioning

confidence: 99%

Real-time analysis of uptake and bioactivatable cleavage of luciferin-transporter conjugates in transgenic reporter mice

Wender

Goun²,

Jones³

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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Many therapeutic leads fail to advance clinically because of bioavailability, selectivity, and formulation problems. Molecular transporters can be used to address these problems. Molecular transporter conjugates of otherwise poorly soluble or poorly bioavailable drugs or probes exhibit excellent solubility in water and biological fluids and at the same time an enhanced ability to enter tissues and cells and with modification to do so selectively. For many conjugates, however, it is necessary to release the drug/probe cargo from the transporter after uptake to achieve activity. Here, we describe an imaging method that provides quantification of transporter conjugate uptake and cargo release in real-time in animal models. This method uses transgenic (luciferase) reporter mice and whole-body imaging, allowing noninvasive quantification of transporter conjugate uptake and probe (luciferin) release in real time. This process effectively emulates drug-conjugate delivery, drug release, and drug turnover by an intracellular target, providing a facile method to evaluate comparative uptake of new transporters and efficacy and selectivity of linker release as required for fundamental studies and therapeutic applications.drug delivery ͉ imaging ͉ transgenic animals M olecular transporters § are agents which, when covalently linked to or complexed with a cargo, enable or enhance its entry into cells or tissues. Many types of transporters have been reported in recent years including peptides (1-5), peptoids (6), polyamines (7,8), oligocarbamates (9), dendrimers (10, 11), polysaccharides (12), steroids (13), cationic lipids (14, 15), guanidinoglycosides (16), and even nanotubes (17). These transporters operate through a variety of mechanisms and some through multiple mechanisms depending on cell type, cargo, and other variables (5,(18)(19)(20)(21)(22). Among the classes of transporters, oligoguanidine based transporters are particularly promising, providing excellent water solubility and at the same time the remarkable ability to rapidly cross the nonpolar membrane of a cell. These transporters have been used for the delivery of small molecules, peptides, proteins, nucleic acids, liposomes, and imaging agents (23-29) and have been modified to provide selective delivery of drugs into target cells and tissue (30,31). Significantly, an octaarginine transporter has been shown to facilitate uptake into tissue (32), including human skin (23). A conjugate of octaarginine and Cyclosporin A enabling uptake of the latter selectively into the skin and thereby effectively eliminating its systemic toxicity has been advanced into Phase II clinical trials (23).There are two overarching and interrelated challenges confronting the further advancement of this field: the development of methods to quantify the uptake of new or existing transporters in real-time in animal models and the identification and evaluation of linkers that would allow for controllable release (if required) of a free drug/probe from the transporter conjugate only after cel...

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Defining the Molecular Requirements for the Selective Delivery of Polyamine Conjugates into Cells Containing Active Polyamine Transporters

Cited by 98 publications

References 52 publications

Effects of sow nutrition during gestation on within-litter birth weight variation: a review

Effects of sow nutrition during gestation on within-litter birth weight variation: a review

The design of guanidinium-rich transporters and their internalization mechanisms

Real-time analysis of uptake and bioactivatable cleavage of luciferin-transporter conjugates in transgenic reporter mice

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