Molecular mechanism of interaction between oligopeptides and double-stranded DNA

Analytical and drug delivery strategies for short peptides: From manufacturing to market

In recent times, biopharmaceuticals have gained attention because of their tremendous potential to benefit millions of patients globally by treating widespread diseases such as cancer, diabetes and many rare diseases. Short peptides (SP), also termed as oligopeptides, are one such class of biopharmaceuticals, that are majorly involved in efficient functioning of biological systems. Peptide chains that are 2-20 amino acids long are considered as oligopeptides by researchers and are some of the functionally vital compounds with widespread applications including self-assembly material for drug delivery, targeting ligands for precise/specific targeting and other biological uses. Using functionalised biomacromolecules such as short chained peptides, helps in improving pharmacokinetic properties and biodistribution profile of the drug. Apart from this, functionalised SP are being employed as cell penetrating peptides and prodrug to specifically and selectively target tumor sites. In order to minimize any unwanted interaction and adverse effects, the stability and safety of SP should be ensured throughout its development from manufacturing to market. Formulation development and characterization strategies of these potential molecules are described in the following review along with various applications and details of marketed formulations.

COVID-19, Retroelements, and Aging

The review presents an analysis of the scientific data on the characteristics of COVID-19 from the perspective of potential interactions between the virus and the host genome retroelements. According to global statistical data, severe COVID-19 with immune-system hyperactivity is observed mainly in elderly people. At the same time, aging is characterized by a decrease in immune responses. This paradox may be resolved by the assumption that DNA regions that can move along the genome with the “copy and paste” mechanism (retroelements) may play a role in COVID-19 development; these elements are characterized by abnormal expression patterns in aging. Their interaction with SARS-CoV-2 may occur at the level of RNA interference or RNA recombination, or the virus can use retroelement proteins to integrate into the host genome. There is supporting evidence of this interaction: data indicating the efficiency of antiretroviral drugs at the early stage of COVID-19, the isolation of SARS-CoV-2 for a long time after recovery, the persistence of coronavirus infections, and changes in the L1 retrotransposon expression patterns in the lung tissues of COVID-19 patients. In additional, retroelements affect the functioning of the immune system and affect the receptors interacting with SARS-CoV-2. Recombination with retroelements and viral insertions into host genomes have been demonstrated in the case of other infections caused by nonretroviral, RNA-containing viruses. The presumable interaction between SARS-CoV-2 and retroelements may explain the differences in the severity and lethality of COVID-19 in different countries as a result of specific insertional patterns in the genomes of individuals belonging to different human populations. The possible insertion of SARS-CoV-2 cDNA into the genome should be kept in mind in the design of anti-COVID-19 vaccines. Peptide preparations are the most promising in this regard.

Peptide bioregulation of aging: results and prospects

The review comprises the results of author's long-term investigation in the mechanisms of aging and a role of peptide bioregulators in prevention of age-related pathology. A number of small peptides have been isolated from different organs and tissues and their analogues (di-, tri-, tetrapeptides) were synthesized from the amino acids. It was shown that long-term treatment with some peptide preparations increased mean life span by 20-40%, slow down the age-related changes in the biomarkers of aging and suppressed development of spontaneous and induced by chemical or radiation carcinogens tumorigenesis in rodents. Possible mechanisms of the biological effects of small peptides are discussed in the paper. The results of clinical applications of peptide preparation during the period of 6-12 years are presented as well.