Honors & Awards
Member, Phi Beta Kappa Honor Society (2010)
Education & Certifications
BS, University of Denver, Molecular Biology (2010)
My primary motivation for pursuing a PhD is to prepare myself for a career as a translational scientist. I would like to do this by pursuing some combination of regenerative medicine, stem cell biology and cancer research through my doctoral degree work. Preclinical modeling of disease and research related to molecular medicine, targeted therapeutics, and personalized medicine are of particular interest to me. I would also like to incorporate training in biomedical informatics into my studies. Something unique about me is that in addition to my passion for scientific research I am also very interested in entrepreneurship and business, specifically in the commercialization of biomedical research. I worked for 2 biotech companies while I was an undergrad and since completing my BS in 2010 I have taken graduate level coursework as a part of a new certificate program in “Bioinnovation and Entrepreneurship” administered by the University of Colorado Medical School. This coursework has exposed me to subjects such as the fundamentals of entrepreneurship and entity formation, intellectual property law and technology transfer, FDA regulatory compliance, and reimbursement strategy.
Worked as a professional research assistant at the University of Colorado Denver School of Medicine in the department of Pulmonary Sciences and Critical Care Medicine in the lab of Dr. Rubin Tuder. I worked with Dr. Brian Graham and the primary focus of our research is to investigate pulmonary arterial hypertension (PAH) caused by the parasite Schistosoma Mansoni. S. mansoni infection causes Schistosomiasis, the third most common parasitic disease worldwide and one of the most common causes of PAH. Our goal was to identify and characterize signaling pathways relevant to the development of pathogenic inflammation and pulmonary vascular remodeling in Schistosomiasis-associated PAH. We utilize multiple different knock-out mouse lines as well as small molecule inhibitors and pharmacological interventions in order to investigate the pathways underlying the development of this disease.
I worked in a research laboratory for 2.5 years at the University of Denver under Dr. Nancy Lorenzon. I obtained a summer research grant in 2008 funding my research and continued to work in the lab on my thesis until I graduated in June 2010. The purpose of my thesis was to use immunocytochemisty, confocal microscopy, and calcium imaging techniques to 1) investigate the subcellular localization of the calcium release channel protein RyR1 in Purkinje cells, 2) compare Purkinje cell morphology and expression of RyR1 in wild type and mutant mice (human malignant hyperthermia disease mutation), and 3) compare basal intracellular calcium levels and calcium release levels in response to the RyR agonist caffeine in cells dissociated from wild type and mutant mice. The work I did to address these research objectives culminated in the presentation of two posters, and a written thesis project which I passed as a part of the requirements of the University Honors Program, as well as to graduate with departmental distinction in the Biological Sciences.
My work with Evolve primarily consisted of assembling a market analysis for a technology that the firm was considering assisting the inventors with commercializing. This market analysis assessed the costs/feasibility associated with commercialization as well as the market for the product and the competitive environment within that market. This analysis was the precursor which aided the firm in determining whether they should put resources into applying for SBIR/STTR (or other non-dilutive grant funding) for the technology as well as assisting the inventors in writing a business plan.
Interned under the Director of Corporate Strategy for SomaLogic during the summer of 2009. Worked on many projects but the primary focus of my internship was a project in which I synthesized corporate analyses of multiple possible partners for the company..
I have been a USA Hockey certified Ice Hockey official since 2004. I officiate all levels of ice hockey from youth to NCAA sanctioned college leagues to adult leagues, and I have been of level 4 certification since 2010.
The pathogenic mechanisms underlying pulmonary arterial hypertension resulting from schistosomiasis, one of the most common causes of pulmonary hypertension worldwide, remain unknown. We hypothesized that transforming growth factor-β (TGF-β) signaling as a consequence of Th2 inflammation is critical for the pathogenesis of this disease.Mice sensitized and subsequently challenged with Schistosoma mansoni eggs developed pulmonary hypertension associated with an increase in right ventricular systolic pressure, thickening of the pulmonary artery media, and right ventricular hypertrophy. Rho-kinase-dependent vasoconstriction accounted for ≈60% of the increase in right ventricular systolic pressure. The pulmonary vascular remodeling and pulmonary hypertension were dependent on increased TGF-β signaling, as pharmacological blockade of the TGF-β ligand and receptor, and mice lacking Smad3 were significantly protected from Schistosoma-induced pulmonary hypertension. Blockade of TGF-β signaling also led to a decrease in interleukin-4 and interleukin-13 concentrations, which drive the Th2 responses characteristic of schistosomiasis lung pathology. Lungs of patients with schistosomiasis-associated pulmonary arterial hypertension have evidence of TGF-β signaling in their remodeled pulmonary arteries.Experimental S mansoni-induced pulmonary vascular disease relies on canonical TGF-β signaling.
View details for DOI 10.1161/CIRCULATIONAHA.113.003072
View details for Web of Science ID 000324477900020
View details for PubMedID 23958565
Rationale: Schistosomiasis is one of the most common causes of pulmonary arterial hypertension worldwide, but the pathogenic mechanism by which the host inflammatory response contributes to vascular remodeling is unknown. We sought to identify signaling pathways that play protective or pathogenic roles in experimental Schistosoma-induced pulmonary vascular disease by whole-lung transcriptome analysis. Methods: Wildtype mice were experimentally exposed to S. mansoni ova by intraperitoneal sensitization followed by tail vein augmentation, and the phenotype assessed by right ventricular catheterization and tissue histology, RNA and protein analysis. Whole-lung transcriptome analysis by microarray and RNA sequencing was performed, the latter analyzed using 2 bioinformatic methods. Functional testing of the candidate IL-6 pathway was determined using IL6-knockout mice and the STAT3 inhibitor STI-201. Results: Wild-type mice exposed to S. mansoni had increased right ventricular systolic pressure and thickness of the pulmonary vascular media. Whole lung transcriptome analysis identified the IL6-STAT3-NFATc2 pathway as being upregulated, which was confirmed by PCR and immunostaining of lung tissue from S. mansoni-exposed mice and patients who died of the disease. Mice lacking IL6 or treated with STI-201 developed pulmonary hypertension associated with significant intima remodeling after exposure to S. mansoni. Conclusions: Whole lung transcriptome analysis identified upregulation of the IL6-STAT3-NFATc2 pathway, and IL6 signaling was found to be protective against Schistosoma-induced intimal remodeling.
View details for PubMedID 23815102
It remains unclear whether basophils and mast cells are derived from a common progenitor. Furthermore, how basophil versus mast cell fate is specified has not been investigated. Here, we have identified a population of granulocyte-macrophage progenitors (GMPs) that were highly enriched in the capacity to differentiate into basophils and mast cells while retaining a limited capacity to differentiate into myeloid cells. We have designated these progenitor cells "pre-basophil and mast cell progenitors" (pre-BMPs). STAT5 signaling was required for the differentiation of pre-BMPs into both basophils and mast cells and was critical for inducing two downstream molecules: C/EBP? and MITF. We have identified C/EBP? as the critical basophil transcription factor for specifying basophil cell fate and MITF as the crucial transcription factor for specifying mast cell fate. C/EBP? and MITF silenced each other's transcription in a directly antagonistic fashion. Our study reveals how basophil and mast cell fate is specified.
View details for PubMedID 23871207
Schistosomiasis-associated pulmonary arterial hypertension (PAH) is one of the most common causes of pulmonary hypertension worldwide. A potential contributing mechanism to the pathogenesis of this disease is a localized immune reaction to retained and persistent parasite-derived antigens. We sought to identify Schistosoma-derived egg antigens present in the lungs of individuals who died of the disease. We obtained 18 lung samples collected at autopsy from individuals who died of schistosomiasis-associated PAH in Brazil. A rabbit polyclonal antibody was created to known Schistosoma mansoni-soluble egg antigen (SEA). Histologic assessment and immunostaining of the human tissue was performed, along with immunostaining and immunoblotting of lung tissue from mice experimentally infected with S. mansoni. All 18 lung samples had evidence of pulmonary vascular remodeling with plexiform lesions and arterial medial thickening, but no visible eggs were seen. The anti-SEA antibody detected S. mansoni egg antigens in visible eggs in mouse lung and human intestine specimens, but did not identify a significant amount of egg antigen in the human lung specimens. In mouse granulomas containing degraded eggs, we observed colocalization of egg antigens and macrophage lysosomes. In conclusion, there is unlikely to be a significant amount of persistent parasite-derived antigens within the lungs of individuals who die of schistosomiasis-associated PAH. This suggests that retained and persistent parasite proteins are not contributing to a localized immune response in the pathogenesis of this disease.
View details for DOI 10.4103/2045-8932.93544
View details for PubMedID 22530100
2012 International Conference of the American Thoracic Society
San Fransisco, CA
2011 International Conference of the American Thoracic Society