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The Development History of Tamiflu Oseltamivir

Oseltamivir can be metabolized by the human body into a neuraminidase inhibitor (NI), thereby inhibiting the formation of new virus particles, reducing its spread in the human body, and alleviating flu symptoms.<br>Today's article will share with you the development history of this blockbuster drug.

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The Development History of Tamiflu Oseltamivir

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  1. HuatengPharma https://en.huatengsci.com The Development History of Tamiflu Oseltamivir Influenza (referred to as flu) is an acute respiratory infection caused by influenza virus, and it is also a highly contagious and fast spreading disease. Oseltamivir, as the only oral neuraminidase inhibitor drug in the world, has long been recognized as one of the most effective influenza drugs in the world. Oseltamivir can be metabolized by the human body into a neuraminidase inhibitor (NI), thereby inhibiting the formation of new virus particles, reducing its spread in the human body, and alleviating flu symptoms. Today's article will share with you the development history of this blockbuster drug. Design Principles of Anti-Influenza Targeted Drugs There are three types of human influenza viruses: A, B, and C, which are the pathogens of influenza (flu). The influenza A virus was successfully isolated in 1933. The antigenicity of influenza A virus is prone to mutate, causing many worldwide pandemics. For example, in the pandemic from 1918 to 1919, at least 20 to 40 million people worldwide died of influenza. Influenza B virus was acquired in 1940. Influenza B virus is also relatively pathogenic to humans, but people have not found that influenza B virus has caused a worldwide pandemic. Influenza C virus was not successfully isolated until 1949. Influenza C virus only causes unobvious or mild upper respiratory tract infections in humans and rarely causes epidemics.

  2. HuatengPharma https://en.huatengsci.com Image Source: https://www.cdc.gov/flu/about/viruses/types.htm The structure of influenza virus includes three parts: envelope, matrix protein and core. There are three proteins on the surface of influenza A virus particles: M2 ion channel protein, hemagglutinin (HA) and neuraminidase (NA). The three proteins M2, HA and NA play an important role in the virus life cycle, and the three proteins have naturally become important targets for fighting influenza viruses. Among them, NA is a glycoprotein composed of four subunits. The most characterized function of NA is its action as a sialidase enzyme. The enzyme helps viruses to be released after budding from the plasma membrane of a host cell. Influenza virus membranes contain two glycoproteins: hemagglutinin and neuraminidase. While the hemagglutinin on the surface of the virion is needed for infection, its presence inhibits the release of the particle after budding. Viral neuraminidase cleaves terminal neuraminic acid (also called sialic acid) residues from glycan structures on the surface of the infected cell. This promotes the release of progeny viruses and the spread of the virus from the host cell to uninfected surrounding cells. Neuraminidase also cleaves sialic acid residues from viral proteins, preventing aggregation of viruses. According to the theoretical evidence, the researchers speculate that the mechanism of neuraminidase is that the substrate undergoes hydrolysis of the a-glycosidic bond under the action of neuraminidase to generate ion intermediate 1, and then water molecules attack 1, and continue the subsequent reaction process.

  3. HuatengPharma https://en.huatengsci.com The catalytic mechanism of neuraminidase Therefore, the design principle of Neuraminidase inhibitors (NAIs) is to simulate the ionic configuration of intermediate 1 in the transition state of sialic acid, interfere with the NA catalytic reaction process, and then exert an antiviral effect. The First Anti-Flu Neuraminidase Inhibitors (NAIs)-Zanamivir As mentioned earlier, the design principle of neuraminidase inhibitors is to mimic the ionic configuration of intermediate 1 in the transition state of sialic acid. The first influenza virus neuraminidase inhibitor based on substrate design came into being, which is substrate analog 2. Molecular structure of compound 1 and 2 However, although the substrate analogue 2 shows certain neuraminidase inhibitory activity in vitro, it has no specific selectivity for influenza virus and has no activity in animal models of influenza infection. After that, the researchers began to make simple structural modifications to 2 in an attempt to find more preferred compounds. However, the activity of the new derivatives in vivo is still not ideal, and all the sialic acid analogs have no higher inhibitory activity against influenza virus neuraminidase than the substrate analog 2. In view of this, the von Itzstein research team started from the crystal structure of neuraminidase and conducted a structure-based drug design system study. According to research, it is found that replacing the C4 hydroxyl group in the substrate analog 2 with an amino group can further enhance the strength of the salt bridge formed by the new compound and the Glu119 residue, thereby improving its activity.

  4. HuatengPharma Further analysis showed that a larger group could be accommodated in the active site. 4-amino-4-deoxy-Neu5Ac2en (compound 3) and 4-deoxy-4-guanidino-Neu5Ac2en (compound 4) were synthesized and proved to be competitive inhibitors for viral neuraminidase and significantly inhibited both A and B influenza replication in vitro and in vivo. 4-deoxy-4-guanidino-Neu5Ac2en showed not only to be the better inhibitor but also showed considerable lower affinity for other isoforms of neuraminidase. For these reasons, 4-deoxy-4-guanidino-Neu5Ac2en was selected as the main drug candidate under the name Zanamivir. High polar nature and rapid excretion contribute to the drug's low bioavailability and rapid elimination. https://en.huatengsci.com Molecular structure of compound 3 and 4 Gilead Develops Oral Antiviral Drugs - Oseltamivir In 1992, Norbert Bischofberger of Gilead Sciences discovered at an ICAAC annual meeting that the zanamivir being developed by GlaxoSmithKline may become a real antiviral drug, but its chemical structure is not suitable for oral administration. . Although scientists at Biota and GlaxoSmithKline feel that the inhaled method may be more advantageous because the virus mainly affects the patient's respiratory system, Bischofberger believes that patients may prefer oral administration when faced with both oral and inhaled administration methods. So he decided to devote himself to the development of oral anti-flu drugs. Soon after the meeting, a 10-person scientific research team vigorously invested in the research and development of the anti-fluid drug project at the headquarters of Gilead. Initially, the molecular design of oseltamivir was very similar to zanamivir. Gilead scientists used transition state intermediate 1 and substrate analog 2 as the initial research objects. In order to facilitate structural modification and transformation, the researchers replaced the dihydropyran ring skeleton in the substrate analog 2 with a carbon ring. At the same time, Intermediate 1 is a phosphonium salt containing a double bond. Based on the principle of isosteres, the researchers decided to replace the

  5. HuatengPharma dihydropyran ring with cycloalkenes to obtain compounds 5 and 6. https://en.huatengsci.com The structure-activity relationship study of compounds 5 and 6 found that the position of the double bond in the carbocyclic compound is very critical to the activity of the compound. Compound 5 showed obvious inhibitory activity on neuraminidase, and finally compound 5 was further studied. Gilead researchers conducted a large number of technical demonstrations in the early stage, and finally decided to further modify the alkyl part of the alkoxy substituent in the seed compound 5. The C1 carboxyl group, C4 acetylamino group, and C5 amino group are temporarily retained, and only the C3 substituent is further modified. The researchers synthesized a large number of R group derivatives and substituted the R group with 2-ethylpropyl to obtain compound 14. The inhibitory activity against influenza A and B viruses increased suddenly, and the IC value reached the level of nmol/L. Continue to replace the R group, compounds with better activity can be obtained, but these compounds are either effective against only one of influenza A and B viruses, or the structure is more complex than compound 14 while with equivalent activity. Therefore, Gilead identified the R group as 2-ethylpropyl and numbered compound 14 as GS4071. Unfortunately, although GS4071 has excellent in vitro anti-A and B NA activity, in vivo activity (mice) studies have found that its bioavailability is low and cannot be developed into an oral drug. Gilead scientists quickly found a solution, by esterifying compound GS4071 to make a prodrug, and then change its absorption performance.

  6. HuatengPharma https://en.huatengsci.com Carboxyl modification of GS4071 After a lot of systematic research, researchers finally selected GS4104 as the prodrug of GS4071, which has the most comprehensive performance. At this point, the compound structure of oseltamivir was finally determined. Commercialization of Oseltamivir In 1996, Roche Pharmaceuticals obtained the right to use oseltamivir and began clinical research. In 1998, Oseltamivir obtained a compound patent in the United States. In 1999, oseltamivir was the first to be approved for listing in Switzerland under the trade name "Tamiflu". In the same year, oseltamivir was approved for listing in the United States. Huateng Pharma, as a professional manufacturer of pharmaceutical APIs and intermediates, provides Tamiflu API and intermediates with full-scale production. We have a 34000m2 product base and a 5000m2 R&D lab that can meet the requirement of worldwide clients. Related articles: [1] The Basic Things We Have To Know About Influenza Virus [2] Xofluza vs. Tamiflu: Differences Between The Antiviral Flu Treatments [3] Baloxavir Marboxil for Uncomplicated Influenza: Mechanism of Action & Side Effects

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