Tasdemiroglu, YagmurGourdie, Robert G.He, Jia-Qiang2023-01-172023-01-172022-10-150014-2999S0014-2999(22)00453-8 (PII)http://hdl.handle.net/10919/113202Current medicinal treatments for diseases comprise largely of two categories: small molecular (chemical) (e.g., aspirin) and larger molecular (peptides/proteins, e.g., insulin) drugs. Whilst both types of therapeutics can effectively treat different diseases, ranging from well-understood (in view of pathogenesis and treatment) examples (e.g., flu), to less-understood chronic diseases (e.g., diabetes), classical small molecule drugs often possess significant side-effects (a major cause of drug withdrawal from market) due to their low- or non-specific targeting. By contrast, therapeutic peptides, which comprise short sequences from naturally occurring peptides/proteins, commonly demonstrate high target specificity, well-characterized modes-of-action, and low or non-toxicity in vivo. Unfortunately, due to their small size, linear permutation, and lack of tertiary structure, peptidic drugs are easily subject to rapid degradation or loss in vivo through chemical and physical routines, thus resulting in a short half-life and reduced therapeutic efficacy, a major drawback that can reduce therapeutic efficiency. However, recent studies demonstrate that the short half-life of peptidic drugs can be significantly extended by various means, including use of enantiomeric or non-natural amino acids (AAs) (e.g., L-AAs replacement with D-AAs), chemical conjugation [e.g., with polyethylene glycol], and encapsulation (e.g., in exosomes). In this context, we provide an overview of the major in vivo degradation forms of small therapeutic peptides in the plasma and anti-degradation strategies. We also update on the progress of small peptide therapeutics that are either currently in clinical trials or are being successfully used in clinical therapies for patients with non-infectious diseases, such as diabetes, multiple sclerosis, and cancer.application/pdfenIn CopyrightAnti-degradation strategiesClinical applicationsIn vivo degradation formsTherapeutic peptideRare DiseasesDiabetesOrphan Drug5.1 Pharmaceuticals5 Development of treatments and therapeutic interventionsMetabolic and endocrine3 Good Health and Well BeingHumansDiabetes MellitusPolyethylene GlycolsAspirinAmino AcidsPeptidesProteinsInsulinsNoncommunicable DiseasesArticle - Refereed2023-01-16https://doi.org/10.1016/j.ejphar.2022.175192932Gourdie, Robert [0000-0001-6021-0796]He, Jia-Qiang [0000-0002-0640-5960]359816051879-0712