Certain Restricted Stock Units of Revolution Medicines, Inc. are subject to a Lock-Up Agreement Ending on 19-SEP-2022.
September 18, 2022
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Certain Restricted Stock Units of Revolution Medicines, Inc. are subject to a Lock-Up Agreement Ending on 19-SEP-2022. These Restricted Stock Units will be under lockup for 61 days starting from 20-JUL-2022 to 19-SEP-2022.
Details:
Directors and executive officers have entered into lock-up agreements with the underwriters prior to the commencement of this offering pursuant to which each of these persons or entities, with limited exceptions, for a period of 60 days after the date of this prospectus supplement, may not, without the prior written consent of J.P. Morgan Securities LLC, offer, pledge, announce the intention to sell, sell, contract to sell, sell any option or contract to purchase, purchase any option or contract to sell, grant any option, right or warrant to purchase, or otherwise transfer or dispose of, directly or indirectly, any shares of common stock or any securities convertible into or exercisable or exchangeable for common stock.
Revolution Medicines, Inc. is a clinical-stage oncology company developing novel targeted therapies for RAS-addicted cancers. The Companyâs research and development pipeline comprises RAS(ON) inhibitors that bind directly to RAS variants, which it refers to as RAS(ON) Inhibitors, and RAS companion inhibitors that target key nodes in the RAS pathway or associated pathways, which it refers to as RAS Companion Inhibitors. Its RAS(ON) Inhibitors are designed to be used as monotherapy, in combination with other RAS(ON) Inhibitors and/or in combination with RAS Companion Inhibitors or other therapeutic agents. Its RAS Companion Inhibitors are designed primarily for combination treatment strategies centered on its RAS(ON) Inhibitors. The Companyâs RAS(ON) Inhibitors RMC-6236 RMC-6291 and RMC-9805 are in clinical development. RMC-6236, its RASMULTI(ON) inhibitor, is designed as a potent, oral, RAS-selective tri-complex inhibitor of multiple RAS(ON) variants, including cancer drivers.