Deck 17: Peptide and Protein Drug Delivery

List the four common classifications of amino acids.

Higher-order properties of peptide and protein drugs only depend on amino acid composition,not amino acid order.

It is often more difficult for peptide and protein drugs than small molecule drugs to permeate cell barriers due to differences in size,polarity,charge,etc.

Only large protein drugs are able to permeate by the paracellular route.

Fill in the blanks: Most protein and peptide drugs depend on ____________,___________,or ___________ routes of transcellular permeation

The average half-life of peptide and protein drugs is shorter than that of small molecule therapeutics due to the enzymatic action of peptidases and proteases.

The average half-life of peptide and protein drugs is shorter than that of small molecule therapeutics due to the enzymatic action of peptidases and proteases.

Briefly describe the mechanism of adsorptive endocytosis for peptide and protein drugs and how this mechanism is exploited in drug delivery.

List three physiological limitations to delivery of oral delivery of peptide and protein drugs

Protein and peptide drugs are often very potent and have a narrow therapeutic index

Currently marketed protein and peptide drugs exhibit high bioavailabilites.

What are the two primary strategies for creating a viable peptide or protein drug for oral delivery?

Fill in the blank: The _______________ route of delivery is the most common for peptide and protein drugs.

The ω-dihedral angle plays an important role in controlling the primary structure of peptides and proteins.

Fill in the blank: The primary adverse reaction to recombinant erythropoietin (EPO) is an example of _______________.

Pulmonary delivery of peptide and protein drugs can be utilized for both local and systemic actions.

Fill in the blanks: Peptide and protein drugs formulated for pulmonary delivery must have particles of a certain ___________,_____________,and _____________ to for maximum alveolar deposition.

List 3 barriers to pulmonary peptide and protein delivery.

Nasal delivery is often utilized for peptide and protein drug delivery due to its high surface area.

Peptide and protein drug delivery by the nasal route is complicated by disease state mostly due to higher mucus levels leading to increased residence time and half-life.

Fill in the blank: Nasal delivery shows promise in delivery of peptide and protein drugs to the brain by allowing API to bypass the ________________ through endocytosis by olfactory cells.

Non-invasive,controlled release formulations of peptide and protein drugs for transdermal delivery may increase patient compliance.

List 3 physicochemical properties of a peptide or protein drug that will determine its extent of permeation through the transdermal route.

Enhancement of peptide and protein permeation through the skin's thick stratum corneum can be accomplished by both chemical permeation enhancers such as _______________,or physical permeation enhancement such as ________________.

Permeation through buccal delivery of peptide and protein drugs is greater than in skin due to the presence of saliva.

Delivery of insulin through the _______ route is regarded as the Holy Grail of drug delivery.

List 3 formulation strategies for buccal delivery of peptide and protein drugs.

The biggest confounders in mimicking physiological insulin secretion are variability in ___________ and __________.

The narrow therapeutic index of insulin combined with inter- and intra-patient variability of absorption through the GI tract reduce the likelihood of replacement of parenteral insulin delivery with oral delivery.

Fill in the blanks: PEGylation,hyperglycosylation,and nanoparticle carriers are all utilized to enhance peptide and protein delivery by increasing ____________.

β-sheet conformations are present in a protein to enable longer secondary structural regions to fold back upon themselves.

Choose one alternative method of peptide and protein delivery and discuss advantages and weaknesses when compared with peroral delivery.

Choose one challenge facing the delivery of protein/peptide drugs and discuss a novel strategy to circumvent this challenge.

Several strategies are currently under investigation for increasing the oral absorption of peptides. Please choose one strategy and highlight the critical aspects of the formulation approach that lead to enhanced intestinal absorption.