Strategy to attack SARS-CoV-2 and other coronaviruses

This technology is a strategy to attack coronaviruses, including the SARS-CoV-2 coronavirus, via targeted polymerase inhibition.

Unmet Need: Method for targeting coronaviruses and similar viral diseases

Coronaviruses such as the newly discovered SARS-CoV-2 that causes COVID-19, as well as the viruses that cause SARS and MERS, have resulted in public health emergencies worldwide. The recent appearance of SARS-CoV-2 has grown into a worldwide pandemic, with growing fear of more outbreaks in the future. While SARS-CoV-2 has been sequenced and visualized using electron microscopy, little is known about effective therapeutic options against the virus. There is an urgent need for therapeutic strategies to target SARS-CoV-2, in order to intervene against COVID-19 pathogenesis and contain outbreaks in the future.

The Technology: Nucleotide analogue-based viral inhibitors for treatment of coronaviruses

This technology describes a strategy to design and synthesize viral polymerase inhibitors for treatment of coronaviruses. The therapeutic strategy utilizes an existing prodrug approach along with unique nucleotide analogues that function as reversible terminators for DNA sequencing. The nucleotide analogues only act on viral polymerases, allowing for specific viral targeting with minimal side effects to the host. Once incorporated, this technology will permanently inhibit viral replication, despite viral mutations. These modified nucleotide analogues are potent polymerase inhibitors, and can be used against various viral diseases, including but not limited to coronaviruses such as SARS-CoV-2.

Applications:

• Treatment of COVID19
• Treatment of other coronavirus diseases (e.g. SARS, MERS)
• Strategy for rapid drug response to new coronaviruses
• Development of broad spectrum anti-viral agents

Advantages:

• Permanent inhibition of viral replication
• Resistant to viral mutations
• Targeted specificity for viral polymerases
• Minimal off-target effects
• Applicable to many viruses

Lead Inventor:

Jingyue Ju, Ph.D.

Related Publications:

• Chien M, Anderson TK, Jockusch S, Tao C, Kumar S, Li X, Russo JJ, Kirchdoerfer RN, Ju J. “Nucleotide analgoues as inhibitors of viral polymerases” BioRxiv. 2020 Mar 18.

• Fuller CW, Kumar S, Porel M, Chien M, Bibillo A, Stranges PB, Dorwart M, Tao C, Li Z, Guo W, Shi S, Korenblum D, Trans A, Aguirre A, Liu E, Harada ET, Pollar J, Bhat A, Cech C, Yang A, Arnold C, Palla M, Hovis J, Chen R, Morozova I, Kalachikov S, Russo JJ, Kasianowicz JJ, Davis R, Roever S, Church GM, Ju J. “Real-time single-molecule electronic DNA sequencing by synthesis using polymer-tagged nucleotides on a nanopore array” PNAS. 2016 May 10; 113(19): 5233-5238.

• Ju J, Kim DH, Lanrong B, Meng Q, Bai X, Li Z, Li X, Marma MS, Shi S, Wu J, Edwards JR, Romu A, Turro NJ. “Four-color DNA sequencing by synthesis using cleavable fluorescent nucleotide reversible terminators” PNAS. 2006 Dec 26; 103(52): 19635-19640.

Tech Ventures Reference:

• IR CU20241

• Licensing Contact: Cynthia Lang