Improving Therapeutic Properties of Protein Drugs through Alteration of Intracellular Trafficking Pathways

Lao, Bert J.; Kamei, Daniel T.

doi:10.1021/bp070080b

Cited by 14 publications

(7 citation statements)

References 29 publications

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“…In addition to modulating targeting vector binding affinity or avidity, one could also envision regulating vector-receptor trafficking dynamics by engineering binding properties that are responsive to the trafficking environment. For instance, during CMT, acidification is a key step in the vesicle maturation and sorting process [16] (Figure 1), and this pH gradient has been exploited in protein engineering involving FcRn binding, as well as in natural ligands including transferrin [35]. Along these lines, early work has investigated whether or not pH-sensitive binding could be an additional engineering handle for regulating anti-TfR antibody trafficking and increasing trans-BBB transport [36].…”

Section: Engineering Targeting Vectors For Enhanced Trans-bbb Trafficmentioning

confidence: 99%

Protein engineering approaches for regulating blood–brain barrier transcytosis

Goulatis

Shusta

2017

Current Opinion in Structural Biology

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The blood brain barrier (BBB) presents a challenge for the delivery of brain therapeutics. Trans-BBB delivery methods that use targeting vectors to coopt the vesicle trafficking machinery of BBB endothelial cells have been developed, but these are often hampered by limited flux through the BBB. A solution to this problem lies in the semi-rational engineering of BBB targeting vectors. Leveraging knowledge of intracellular trafficking, researchers have begun to tune selected binding properties of the vector-receptor interaction. Engineered binding affinity, avidity and pH-sensitivity have been shown to affect binding, intracellular sorting and release, ultimately leading to increased brain uptake of the targeting vector and its associated cargo. However, each targeted receptor may exhibit differential responses to engineered binding properties, illustrating the need to better understand vector-receptor interactions and trafficking dynamics.

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Section: Engineering Targeting Vectors For Enhanced Trans-bbb Trafficmentioning

confidence: 99%

Protein engineering approaches for regulating blood–brain barrier transcytosis

Goulatis

Shusta

2017

Current Opinion in Structural Biology

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“…leading to the possibility of apo-Tf binding to TfR at neutral pH. Such interactions, if they indeed exist, must be taken into account when engineering advanced therapeutic strategies that utilize intracellular trafficking pathways [23]. This warranted further, more detailed investigation of the non-canonical forms of Tf that would provide more definitive proof of their existence beyond the circumstantial evidence produced in the early work [5, 7].…”

Section: Detection Of Non-canonical Forms Of Tf With Hdx Msmentioning

confidence: 99%

Transferrin as a model system for method development to study structure, dynamics and interactions of metalloproteins using mass spectrometry

Kaltashov

Bobst

Zhang

et al. 2012

Biochimica et Biophysica Acta (BBA) - General Subjects

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BACKGROUND Transferrin (Tf) is a paradigmatic metalloprotein, which has been extensively studied in the past and still is a focal point of numerous investigation efforts owing to its unique role in iron homeostasis and enormous promise as a component of a wide range of therapies. SCOPE OF REVIEW Electrospray ionization mass spectrometry (ESI MS) is a potent analytical tool that has been used successfully to study various properties of Tf and Tf-based products, ranging from covalent structure and metal binding to conformation and interaction with their physiological partners. MAJOR CONCLUSIONS Various ESI MS-based techniques produce unique information on Tf properties and behavior that is highly complementary to information provided by other experimental techniques. GENERAL SIGNIFICANCE The experimental ESI MS-based techniques developed for Tf studies are not only useful for understanding of fundamental aspects of the iron-binding properties of this protein and optimizing Tf-based therapeutic products, but can also be applied to study a range of other metalloproteins.

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“…A clear understanding of the intracellular trafficking pathway of Tf is therefore crucial to improving its efficacy as a drug delivery vehicle 58. Through in vitro experiments and mathematical modeling, Murphy and coworkers previously demonstrated that the duration of cellular trafficking of monoclonal anti-transferrin receptor antibodies, or its cellular association, is correlated with the effectiveness of the antibody as a drug delivery vehicle 118,124,125.…”

Section: Transferrinmentioning

confidence: 99%

Intracellular Trafficking Considerations in the Development of Natural Ligand-Drug Molecular Conjugates for Cancer

et al. 2011

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Overexpressed receptors, characteristic of many cancers, have been targeted by various researchers to achieve a more specific treatment for cancer. A common approach is to use the natural ligand for the overexpressed receptor as a cancer-targeting agent which can deliver a chemically or genetically conjugated toxic molecule. However, it has been found that the therapeutic efficacy of such ligand-drug molecular conjugates can be limited, since they naturally follow the intracellular trafficking pathways of the endogenous ligands. Therefore, a thorough understanding of the intracellular trafficking properties of these ligands can lead to novel design criteria for engineering ligands to be more effective drug carriers. This review presents a few commonly used ligand/receptor systems where intracellular trafficking considerations can potentially improve the therapeutic efficacy of the ligand-drug molecular conjugates.

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Improving Therapeutic Properties of Protein Drugs through Alteration of Intracellular Trafficking Pathways

Cited by 14 publications

References 29 publications

Protein engineering approaches for regulating blood–brain barrier transcytosis

Protein engineering approaches for regulating blood–brain barrier transcytosis

Transferrin as a model system for method development to study structure, dynamics and interactions of metalloproteins using mass spectrometry

Intracellular Trafficking Considerations in the Development of Natural Ligand-Drug Molecular Conjugates for Cancer

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