Early-generation kinase medicines are limited by poor selectivity, off-target effects and the emergence of resistance.

Our founding scientists envisioned a new generation of highly selective kinase medicines that could prolong lives, improve quality of life and prevent disease recurrences, with more potent target inhibition, fewer off-target effects and opportunities for therapeutic combinations.

They worked to build a scalable platform that could yield multiple selective kinase medicines for a wide range of diseases, bringing this innovation to as many patients as possible.

A look inside our labs

Our scientists merge expertise in bioinformatics and structural and cell biology, world-class drug design capabilities and a proprietary library of novel compounds to create a new discovery paradigm. This unique approach enables us to rapidly identify compelling disease targets and design highly selective kinase medicines.

The result is a robust and diverse portfolio of clinical- and research-stage programs targeting genomically defined cancers, rare diseases and cancer immunotherapy. With a steadfast commitment to scientific excellence and to patients, we aim to rapidly and unequivocally change the face of medicine.

Meet our Scientists


Dilinie P. Fernando: Scientist II, Medicinal Chemistry

My path

I earned a B.S. in Chemistry from North Dakota State and a M.S. in Organic Chemistry from Washington State University.

My experience

My desire to bring transformative medicines to patients led me to Blueprint Medicines. Prior to joining Blueprint, I worked on kinase inhibitors for the treatment of amyotrophic lateral sclerosis (ALS) and irritable bowel syndrome (IBS) at Amgen Discovery Cambridge and at Pfizer Global Research in Groton, where my efforts contributed to multiple clinical drug candidates. This experience is helping me bring new clinical candidates to patients in need at Blueprint.

My biggest achievement

My career started at Abbott (now Abbvie) in North Chicago, working on process research for clinical candidates from gram to multi kilogram scale. It was my good fortune to have worked in the only operational pilot plant owned by large pharma in the US. One of my most impactful contributions was the design and execution of a novel route to a Phase 2 clinical compound at Abbott. I performed the catalyst screen and route optimization for the first large scale coupling of an unsymmetrical urea to an aryl halide utilizing palladium catalyzed cross-coupling on pilot plant scale (64Kg scale).

My recent scientific publications

“Discovery of PF-06835919: A Potent Inhibitor of Ketohexokinase (KHK) for the Treatment of Metabolic Disorders Driven by the Overconsumption of Fructose,” published in the Journal of Medicinal Chemistry in 2020

“Optimizing the Benefit/Risk of Acetyl-CoA Carboxylase Inhibitors through Liver Targeting,” published in the Journal of Medicinal Chemistry in 2020

“Discovery and Preclinical Characterization of 6-Chloro-5-[4-(1-hydroxycyclobutyl)phenyl]-1H-indole-3-carboxylic Acid (PF-06409577), a Direct Activator of Adenosine Monophosphate-activated Protein Kinase (AMPK), for the Potential Treatment of Diabetic Nephropathy,” published in the Journal of Medicinal Chemistry in 2016

“Route Selection and Optimization in the Synthesis of Two Imidazopyridine Inhibitors of DGAT-2,” published in Organic Process Research & Development in 2018

“Discovery and in Vitro Optimization of 3-Sulfamoylbenzamides as ROMK Inhibitors,” published in ACS Medicinal Chemistry Letters in 2018

See Dilinie's other publications

My Blueprint Medicines

Blueprint’s excellence in the precision oncology space targeting kinases was the primary driver, but seeing the beautiful lab space during my first visit to Blueprint was the deal-closer. I love the Blueprint vibe, culture and vision as small teams take on big dreams to serve patients with unmet medical needs.

Chaoyang Ye: Head of Computational Biology & Bioinformatics

My path

I earned a B.S. in Biochemistry from Nanjing University, and a Ph.D. in Microbiology from the University of Missouri-Columbia.

My experience

As a graduate student at the University of Missouri, I studied viral molecular genetics (working in the laboratory of Dr. David Pintel), and completed postgraduate work in genomics at the University of Pennsylvania. At the Allen Institute for Brain Science in Seattle, my team developed novel single cell technologies to study neural differentiation. In 2013, I came to Cambridge to join Novartis, where as a laboratory head I utilized cutting-edge screening and genomics technologies to model neurological diseases before joining Blueprint Medicines in 2018.

My biggest achievement

I was part of an international collaboration to sequence the first two ant genomes and use them as model organisms to study aging. This led to co-first authored papers in Science and Genome Research in 2010 and 2013, respectively.

My recent scientific publications

“Genome-Scale CRISPR Screens Identify Human Pluripotency-Specific Genes,” published in Cell Reports in 2019

“p53 inhibits CRISPR-Cas9 engineering in human pluripotent stem cells,” published in Nature Medicine in 2018

“DRUG-seq for miniaturized high-throughput transcriptome profiling in drug discovery,” published in Nature Communication in 2018

See Chaoyang's other publications

My Blueprint Medicines

I joined Blueprint when I realized that my knowledge of genomics and data analytics might have a profound impact on patients’ lives. Each day I work with diverse teams, all dedicated to an expansive project portfolio, and a vast store of data that we can analyze to potentially discover new treatment advances.

Nimita Dave: Associate Director, Quantitative Pharmacology

My path

I earned a B.Pharm.Sci. from the University of Mumbai India, a M.S. in Chemistry from Eastern Michigan University, and a Ph.D. in Pharmaceutical Sciences (pharmacokinetics) from the University of Cincinnati. I have also completed a NIH T32 fellowship in Clinical Pharmacology from Indiana University School of Medicines and am a board-certified clinical pharmacologist.

My experience

Oncology has been my focus area throughout my graduate education, fellowship and during my two years as a Clinical Pharmacologist at AbbVie.

My biggest achievement

I would consider my Ph.D. dissertation project one of my biggest achievements. With very limited resources, I validated a target in glioblastoma, an aggressive brain cancer with very limited treatment options, and did further preclinical pharmacokinetic/pharmacodynamic experiments to identify the dose range to try in humans. I received several awards, have a patent for the therapy, and more importantly, it is currently in clinical trials.

My recent scientific publications

“Letrozole targets the human ether-a-go-go-related gene potassium current in glioblastoma,” published in Basic & Clinical Pharmacology & Toxicology in 2021

“Venetoclax Increases Intratumoral Effector T Cells and Antitumor Efficacy in Combination with Immune Checkpoint Blockade,” published in Cancer Discovery in 2020

“Model-Informed Dosing of Venetoclax in Healthy Subjects: An Exposure-Response Analysis,” published in Clinical and Translational Science in 2019

“Pharmacokinetics of the BCL-2 Inhibitor Venetoclax in Subjects with Hepatic Impairment,” published in Clinical Pharmacokinetics in 2019

“Accelerating Drug Development in Pediatric Oncology With the Clinical Pharmacology Storehouse,” published in the Journal of Clinical Oncology in 2018

“CYP2B6 Genotype-Dependent Inhibition of CYP1A2 and Induction of CYP2A6 by the Antiretroviral Drug Efavirenz in Healthy Volunteers,” published in Clinical and Translational Science in 2019

Model-based meta-analysis of progression-free survival in non-Hodgkin lymphoma patients, published in Medicine (Baltimore) in 2017

“Preclinical pharmacological evaluation of letrozole as a novel treatment for gliomas,” published in Molecular Cancer Therapeutics in 2015

“The pharmacokinetics of acyl, des-acyl, and total ghrelin in healthy human subjects,” published in the European Journal of Endocrinology in 2013

“Solubilization of flurbiprofen into aptamer-modified PEG-PLA micelles for targeted delivery to brain-derived endothelial cells in vitro,” published in the Journal of Microencapsulation in 2013

“The pharmacokinetics of letrozole in brain and brain tumor in rats with orthotopically implanted C6 glioma, assessed using intracerebral microdialysis,” published in Cancer Chemotherapy and Pharmacology in 2013

See Nimita's other publications

My Blueprint Medicines

Blueprint Medicines’ team of highly driven people, the scientific platform driving precision medicine and the culture were the main drivers in encouraging me and my family move from the Midwest to the Boston area, so I could join the Blue Crew.

Leni S. Jacob: Scientist II

My path

I earned a B.S. in Microbiology from the University of Texas at Austin and a Ph.D. in Genetics & Development from the University of Texas Southwestern Medical Center. I also completed postdoctoral fellowships focusing on metastasis and RNA biology.

My experience

After my undergraduate education, I took a job sequencing DNA for the Human Genome Project, which sparked my interest in research. Through my graduate school and postdoctoral training, I learned I wanted to work on cancer research that had a real impact for patients.

My biggest achievement

During my postdoctoral training, I was able to show that cancer cells don’t need mutations to gain the ability to metastasize. Cancer cells frequently accumulate additional mutations; however, even without permanent changes to their DNA, they can gain the ability to move to another foreign part of the body, evade the immune system and start to form a new tumor. This finding highlighted the importance of expanding our search from genetic alterations to epigenetic and gene expression changes when looking for potential drug targets.

My recent scientific publications

“Non-coding RNA networks in cancer,” published in Nature Reviews Cancer in 2018

“Carcinoma-astrocyte gap junctions promote brain metastasis by cGAMP transfer,” published in Nature in 2016

“Metastatic Competence Can Emerge with Selection of Preexisting Oncogenic Alleles without a Need of New Mutations,” published in Cancer Research in 2015

See Leni's other publications

My Blueprint Medicines

I wanted the research I do to make a difference in patients’ lives, and I knew the innovative and rigorous science at Blueprint Medicines would give me that opportunity.


“We’re entering a new era of precision medicine… we can now rapidly and reproducibly design potent and selective kinase medicines for previously undruggable as well as newly discovered drivers of disease. Combined with recent advances in molecular profiling, we believe these next-generation kinase medicines can quickly achieve clinical proof-of-concept and, ultimately, transform patient care.”

Fouad Namouni, M.D., President, Research & Development

Scientific Advisory Board

Giulio Draetta, M.D., Ph.D.

Director, Institute for Applied Cancer Science at MD Anderson Cancer Center, and Professor of Molecular and Cellular Oncology

Brian Druker, M.D.*

Director, Oregon Health & Science University Knight Cancer Institute, and JELD-WEN Chair of Leukemia Research

Carlos Garcia-Echeverria, Ph.D.

Global Head of Research Platforms, Sanofi

Scott Lowe, Ph.D.*

Member, Cancer Biology and Genetics Program at Memorial Sloan Kettering Institute Cancer Center, and Chair, Geoffrey Beene Cancer Research Center

Nick Lydon, Ph.D.*

Founder, Granite Biopharma LLC

Charles L. Sawyers, M.D.*

Director, Human Oncology and Pathogenesis Program at Memorial Sloan-Kettering Cancer Center