The abstract (#11006), titled Safety
and activity of DCR-MYC, a first-in-class Dicer substrate small
interfering RNA (DsiRNA) targeting MYC, in a phase 1 study in patients
with advanced solid tumors, will be presented during the Tumor
Biology oral abstract session on
"We are pleased to be presenting initial Phase 1 data from our DCR-MYC
program at the 2015 ASCO Annual Meeting," said
The data are from a Phase 1 dose-escalation study evaluating the safety, pharmacodynamics (PD), pharmacokinetics (PK), and clinical activity of DCR-MYC in patients with advanced solid tumors, multiple myeloma or lymphoma.
DCR-MYC, Dicerna's investigational Dicer substrate siRNA (DsiRNA) therapeutic, is designed to silence the MYC oncogene. MYC is a key target in oncology because it is implicated in a large number of cancers. DCR-MYC contains MYC-targeted DsiRNA delivered via Dicerna's EnCoreTM lipid nanoparticle (LNP) tumor delivery system. In preclinical research involving human tumors implanted in mice, and in mice that were genetically engineered to develop tumors, DCR-MYC substantially reduced the level of MYC expression and slowed or halted tumor progression. Dicerna is conducting a clinical trial program to explore the therapeutic activity of DCR-MYC across multiple tumor types. The Company has a Phase 1 clinical trial of DCR-MYC in patients with solid tumors, multiple myeloma or lymphoma, and a Phase 1b/2 trial in patients with hepatocellular carcinoma (HCC).
RNA interference (RNAi) is a biologic process in which certain double-stranded RNA molecules inhibit the expression of disease-causing genes by destroying the messenger RNAs (mRNAs) of those genes. It reflects a new approach in the development of specific and powerful therapies for genetic cancers and rare inherited diseases involving the liver. RNAi has the potential to treat these diseases through some of the most promising, yet previously inaccessible drug targets.
Traditional classes of drugs, small molecules and antibodies, have been used successfully for diseases with well-defined targets and proteins, encoded by disease-associated genes. However, both of those classes are limited by the nature of the targets they can inhibit. RNAi offers the potential to overcome these limitations. Rather than targeting and binding to proteins to inhibit their activity, RNAi exerts its effects one step earlier in the process by targeting the mRNA, the instruction set that directs the building of the protein. In this manner, RNAi can potentially attack any target. Potential targets include disease-causing genes that are expressed exclusively inside cells and which lack good small-molecule binding pockets, putting them beyond the reach of traditional antibody and small molecule technology.
About Dicer Substrate Technology
Dicerna's innovative Dicer substrate short-interfering RNA (DsiRNA) technology platform fuels a pipeline of promising, precisely targeted therapies designed to overcome many of the challenges of earlier generations of RNAi therapeutics. Dicerna's DsiRNA and DsiRNA-EX molecules are at the core of its therapeutic candidates. Each are chemically optimized double-stranded RNAs designed to potently induce RNAi. Dicerna has further developed the ideas behind DsiRNAs to create its DsiRNA-EX molecules, which carry additional benefits.
Dicerna's proprietary RNAi molecules are known as Dicer substrates because they are designed to be processed by the Dicer enzyme, which is the initiation point for RNAi in the human cell cytoplasm. Dicerna's discovery approach seeks to maximize RNAi potency through optimized structuring of DsiRNA for processing by Dicer. Dicer processing enables the preferential use of the correct RNA strand of the DsiRNA, which may increase the efficacy of the RNAi mechanism, as well as the potency of the DsiRNA molecules relative to other molecules used to induce RNAi. Dicerna's DsiRNA Extended (DsiRNA-EX) molecules resemble DsiRNA molecules but have an extended region at one end which is engineered to provide additional functionality to the DsiRNA-EX molecules. Dicerna can also use this extended region to generate its DsiRNA-EX Conjugates, whereby a drug delivery agent is linked directly to the extended region of the DsiRNA-EX molecule, potentially enabling the delivery of DsiRNA-EX Conjugates to patients through a subcutaneous injection.
Dicerna is a biopharmaceutical company focused on the discovery and development of innovative treatments for rare inherited diseases involving the liver and for cancers that are genetically defined. The Company seeks to use its proprietary RNA interference technology platform to build a broad pipeline in these therapeutic areas. In both rare diseases and oncology, Dicerna is pursuing targets that have historically been difficult to inhibit using conventional approaches, but where connections between targets and diseases are well understood and documented. The Company intends to discover, develop and commercialize novel therapeutics either on its own or in collaboration with pharmaceutical partners. For more information, please visit www.dicerna.com.
Cautionary Note on Forward-Looking Statements
This press release includes forward-looking statements. Such
forward-looking statements are subject to risks and uncertainties that
could cause actual results to differ materially from those expressed or
implied in such statements. Interim clinical data are preliminary and
could differ materially from final clinical data. Moreover, Phase 1
clinical data may not be replicated in subsequent clinical trials and
may fail to indicate whether a drug candidate is potentially approvable.
Applicable risks and uncertainties include those relating to our
preclinical research and clinical development and other risks identified
under the heading "Risk Factors" included in our most recent Form 10-Q
filing and in other future filings with the
News Provided by Acquire Media