First-in-class small molecule drugs in 2023 / 药学学报

In 2023, drug discovery develops steadily, with improvement of small molecule drugs discovery keeps pace with biological drugs in this year. The Center for Drug Evaluation and Research of U.S. Food and Drug Administration has totally approved 55 kinds of new drugs which have significantly promotion compared to 37 new drugs approval in 2022, including 38 kinds of new molecular entities, 17 kinds of biological drugs, 5 kinds of gene therapeutics and 2 cell therapeutics. The proportion of first-in-class drugs increased steadily, with 13 small molecule first-in-class drugs and 7 biological first-in-class drugs approved this year, mostly in the fields of cancer and rare diseases. Among them, a plurality of first-initiated small molecule drugs exhibits breakthrough significance, such as the first neurokinin 3 (NK3) receptor antagonist fezolinetant, the first retinoic acid receptor (RIG-I) agonist palovarotene, the first protein kinase B (AKT) inhibitor capivasertib, the first complement factor B inhibitor iptacopan, etc. The pioneering drug has huge academic and commercial value, and has become the target of the academic and industrial circles. However, first-in-class drugs not only need new targets, new mechanisms and new molecules, but also need to comprehensively verify the causality between new targets and diseases, study the correlation between new mechanisms and drug efficacy, and explore the balance between new molecules and drug-manufacturing properties. This article analyzed the research background, development process and therapeutic application of three first-initiated small molecule drugs in this year, expecting to provide more research ideas and methods for more first-in-class drugs.

First-in-class small molecule drugs in 2022 / 药学学报

2022 is the third year of the global COVID-19 pandemic, and its troubles on new drug discovery are gradually apparent. 37 new drugs were approved by the FDA's Center for Drug Evaluation and Research (CDER) last year, down from the peak of 50 new drug approvals in 2021. Notably, first-in-class drugs still occupy a dominant position this year, with a total of 21 drugs. Among them, 7 are first-in-class small molecule drugs. Although the total number of new drug approvals in 2022 sharply decreased, some first-in-class small molecule drugs were regarded as significant, including mitapivat, the first oral activator targeting the pyruvate kinase (PK); mavacamten, the first selective allosteric inhibitor targeting the myocardial β myosin ATPase; deucravacitinib, the first deuterated allosteric inhibitor targeting the tyrosine kinase 2 (TYK2); and lenacapavir, the first long-acting inhibitor targeting the HIV capsid. Generally, the research of first-in-class drugs needs to focus on difficult clinical problems and can treat some specific diseases through novel targets and biological mechanisms. There are tremendous challenges in the research processes of new drugs, including biological mechanism research, target selection, molecular screening, lead compound identification and druggability optimization. Therefore, the success of first-in-class drugs development has prominent guidance significance for new drug discovery. This review briefly describes the discovery background, research and development process and therapeutic application of 3 first-in-class small molecule drugs to provide research ideas and methods for more first-in-class drugs.

Advance on small molecule self-assembled nano-drug delivery system / 药学学报

Since the application of biomedical nanotechnology in the field of drug delivery breathes new life into the research and development of high-end innovative agents, a substantial number of novel nano-drug delivery systems (nano-DDSs) have been successively developed and applied in the clinical practice. Among them, small molecule pure drug and prodrug-based nanoassemblies have grasped great attention, owing to the facile fabrication, ultrahigh drug loading and feasible industrial production. Herein, we provide an overview on the latest updates of small-molecule nanoassemblies. Firstly, the self-assembled prodrug-based nano-DDSs are introduced, including nanoassemblies formed by amphiphilic monomeric prodrugs, hydrophobic monomeric prodrugs and dimer monomeric prodrugs. Then, the recent advances on nanoassemblies of small molecule pure chemical drugs and biological drugs are presented. Furthermore, carrier-free small-molecule hybrid nanoassemblies of pure drugs and/or prodrugs are summarized and analyzed. Finally, the rational design, application prospects and clinical challenges of small-molecule self-assembled nano-DDSs are discussed and highlighted. This review aims to provide scientific reference for constructing the next generation of nanomedicines.

Research advances in pharmacotherapy for rare diseases in children / 中国当代儿科杂志

There are more than 7 000 rare diseases and approximately 475 million individuals with rare diseases globally, with children accounting for two-thirds of this population. Due to a relatively small patient population and limited financial resources allocated for drug research and development in pharmaceutical enterprises, there are still no drugs approved for the treatment of several thousands of these rare diseases. At present, there are no drugs for 95% of the patients with rare diseases, and consequently, the therapeutic drugs for rare diseases have been designated as orphan drugs. In order to guide pharmaceutical enterprises to strengthen the research and development of orphan drugs, various nations have enacted the acts for rare disease drugs, promoted and simplified the patent application process for orphan drugs, and provided scientific recommendations and guidance for the research and development of orphan drugs. Since there is a relatively high incidence rate of rare diseases in children, this article reviews the latest research on pharmacotherapy for children with rare diseases.

Recent progress of aptamer‒drug conjugates in cancer therapy

Aptamers are single-stranded DNA or RNA sequences that can specifically bind with the target protein or molecule via specific secondary structures. Compared to antibody-drug conjugates (ADC), aptamer‒drug conjugate (ApDC) is also an efficient, targeted drug for cancer therapy with a smaller size, higher chemical stability, lower immunogenicity, faster tissue penetration, and facile engineering. Despite all these advantages, several key factors have delayed the clinical translation of ApDC, such as in vivo off-target effects and potential safety issues. In this review, we highlight the most recent progress in the development of ApDC and discuss solutions to the problems noted above.

First-in-class small molecule drugs in 2020 / 药学学报

With the development of the research on innovative drugs in our country, first-in-class drugs are becoming a main goal for both pharmaceutical companies and scientific institutions. Discovery of first-in-class drugs require amounts of basic research, a massive investment and novel methods, acting as a beacon for the new drug development. In 2020, FDA totally approved 53 novel drugs with 38 small molecules, which still accounting for a major component. Among them, many first-in-class drugs are important including a first EZH2 inhibitor (tazemetostat) for the treatment of epithelioid sarcoma, a first attachment inhibitor (fostemsavir) with novel mechanism for the treatment of HIV, a first farnesyltransferase inhibitor (lonafarnib) for the treatment of Hutchinson-Gilford progeria syndrome (HGPS) and a first MC4 receptor agonist for the treatment of rare genetic diseases of obesity, etc. The research procedures of the above drugs are representative with new ideas. In this review, we outline 3 of the first-in-class drugs to discuss the research background, discovery and development process as well as the therapeutic potentials to provide methods and ideas for the further drug development.

Examples of biology-driven drug design / 药学学报

Pharmacological activity and drug likeness depend in principle upon the microscopic structure and macroscopic properties of drugs, which reside in their molecular structures. By means of medicinal chemistry the evolution of an active compound to a novel drug (NME) essentially makes the two pillars coexistence in one chemical structure, which either could merge as an intrinsic structure or connect from external fragments to each other with covalent bonds. Since the new millennium the advance in biology provides several knowledge and technologies, for example humanized monoclonal antibody, proteasome-ubiquitin system, allosteric modulation, natural macromolecules, structural biology, etc., for innovation of novel medicines. Taking several examples on marketed drugs or drug candidates in clinical trials, this article tries to concisely illustrate R & D conception of biology-driven drug design.

Current status and thinking of small-molecule drug discovery for the treatment of COVID-19 / 国际药学研究杂志

The discovery of small-molecule drugs for the treatment of COVID-19 is one of the most concerned research fields in drug discovery. Different kinds of small-molecule drugs approved or being developed are currently under clinical studies for the treatment of COVID-19. At present, the design of most clinical trials for the treatment of COVID-19 is lack of rationality. Moreover, the efficacy of drugs is controversial. High-quality results of clinical research are urgently needed. There is no small-molecule drugs in clinical studies that have specific effects on SARS-CoV-2. To find more drug candidates, artificial intelligence, structure-based drug design and other methods are applied to discover pre-clinical small molecule compounds against important protein targets of SARS-CoV-2 and virus host. Resources should be further integrated to discover drugs with specific effects to treat COVID-19.

First-in-class small molecule drugs in 2018 / 药学学报

In 2018, FDA approved 59 kinds of new drugs in all, breaking the record of 53 set in 1993. There were 34 types of small molecule drugs, which accounted for 64% of the whole new drugs. Of these 34 new small molecule drugs, 9 first-in-class ones marked a milestone for the subsequent drug discovery and development. These include Glasdegib, the world's first small molecule inhibitor targeting Smo through Hedgehog signaling pathway; Ivosidenib, the first small molecule inhibitor targeting mutant IDH1; Tecovirimat, the first small molecule drug for anti-variola virus therapy through targeting p37; Baloxavir marboxil, the first anti-flu drug targeting cap-dependent endonuclease; Elagolix sodium, the first small molecule inhibitor in treating endometriosis by targeting GnRH-R, etc. The research and development of first-in-class drugs is always full of obstacles and challenges. However, once they were successfully recognized as the "heavy bomb" drugs, they would become huge benefits. This article chose the representative first-in-class small molecule drugs that were approved in 2018 as examples to analyze their development processes in an attempt to provide guidance for the research and development of more first-in-class drugs.

Research progress of small-molecule drugs targeting JAK in autoimmune diseases / 药学学报

Autoimmune disease refers to a series of diseases caused by the body's immune response to autoantigens leading to autologous tissue damage. The examples include rheumatoid arthritis (RA), systemic lupus erythematosus (SLE) and psoriasis, etc. Janus kinases (JAKs) are a class of non-receptor tyrosine kinases that are essential signaling mediators in the signal transduction and expression of the inflammatory cytokines, which are closely related to the occurrence and development of the autoimmune diseases. Studies have shown that the inhibitors targeting JAK can exert anti-inflammatory and immuno-modulatory pharmacological activities by modulation of the cell signaling pathways related to the inflammatory cytokines. In this paper, the literature about small-molecule drugs targeting JAK on autoimmune diseases in recent years are summarized to provide valuable information for the research and development of drugs.

Recent advances in research and development of new small molecule immunosuppressants for inflammatory bowel disease / 药学学报

Inflammatory bowel disease (IBD) is a chronic relapsing inflammatory disorder including mainly ulcerative colitis (UC) and Crohn's disease (CD). In China, IBD has become a common disease of the digestive system with an dramatic increase in incidence in recent years. The pathogenesis of IBD is not yet clear, and no drugs can completely cure IBD. Compared with monoclonal antibody drugs, small molecule drugs have the advantages of low cost, easy development as oral agents, and absence of immunogenicity. This review summarizes the recent research and development of small molecule immunosuppressants for IBD.