Building Capacity for Global Cancer Research: Existing Opportunities and Future Directions.

Cancer incidence and mortality are increasing in low- and middle-income countries (LMICs), where more than 75% of global cancer burden will occur by the year 2040. The primary drivers of cancer morbidity and mortality in LMICs are environmental and behavioral risk factors, inadequate prevention and early detection services, presence of comorbidities, and poor access to treatment and palliation. These same drivers also contribute to marked cancer health disparities in high-income countries. Studying cancer in LMICs provides opportunities to better understand and address these drivers to benefit populations worldwide, and reflecting this, global oncology as an academic discipline has grown substantially in recent years. However, sustaining this growth requires a uniquely trained workforce with the skills to pursue relevant, rigorous, and equitable global oncology research. Despite this need, dedicated global cancer research training programs remain somewhat nascent and uncoordinated. In this paper, we discuss efforts to address these gaps in global cancer research training at the US National Institutes of Health.

The Medical Education Partnership Initiative: Strengthening Human Resources to End AIDS and Improve Health in Africa.

Faced with a critical shortage of physicians in Africa, which hampered the efforts of the U.S. President's Emergency Plan for AIDS Relief (PEPFAR), the Medical Education Partnership Initiative (MEPI) was established in 2010 to increase the number of medical graduates, the quality of their education, and their retention in Africa. To summarize the accomplishments of the initiative, lessons learned, and remaining challenges, the authors conducted a narrative review of MEPI-from the perspectives of the U.S. government funding agencies and implementing agencies-by reviewing reports from grantee institutions and conducting a search of scientific publications about MEPI. African institutions received 11 programmatic grants, totaling $100 million in PEPFAR funds, to implement MEPI from 2010 to 2015. The National Institutes of Health (NIH) provided an additional 8 linked and pilot grants, totaling $30 million, to strengthen medical research capacity. The 13 grant recipients (in 12 countries) partnered with dozens of additional government and academic institutions, including many in the United States, forming a robust community of practice in medical education and research. Interventions included increasing the number of medical school enrollees, revising curricula, recruiting new faculty, enhancing faculty development, expanding the use of clinical skills laboratories and community and rural training sites, strengthening computer and telecommunications capacity, and increasing e-learning. Research capacity and productivity increased through training and support. Additional support from NIH for faculty development, and from PEPFAR for health professions education and research, is sustaining and extending MEPI's transformative effect on medical education in select African sites.

The impact of the United Nations Convention on Biological Diversity on natural products research.

The discovery and development of novel, biologically active agents from natural sources, whether they be drugs, agrochemicals or other bioactive entities, involve a high level of interdisciplinary as well as international collaboration. Such collaboration, particularly at the international level, requires the careful negotiation of collaborative agreements protecting the rights of all parties, with special attention being paid to the rights of host (source) country governments, communities and scientific organizations. While many biodiversity-rich source countries currently might not have the necessary resources for in-country drug discovery and advanced development, they provide valuable opportunities for collaboration in this endeavor with research organizations from more high-income nations. This chapter discusses the experiences of the US National Cancer Institute and the US government-sponsored International Cooperative Biodiversity Groups program in the establishment of international agreements in the context of the Convention of Biological Diversity's objectives of promoting fair and equitable collaboration with multiple parties in many countries, and includes some specific lessons of value in developing such collaborations.

Dachs: an unconventional myosin that functions downstream of Fat to regulate growth, affinity and gene expression in Drosophila.

The dachs gene was first identified almost a century ago based on its requirements for appendage growth, but has been relatively little studied. Here, we describe the phenotypes of strong dachs mutations, report the cloning of the dachs gene, characterize the localization of Dachs protein, and investigate the relationship between Dachs and the Fat pathway. Mutation of dachs reduces, but does not abolish, the growth of legs and wings. dachs encodes an unconventional myosin that preferentially localizes to the membrane of imaginal disc cells. dachs mutations suppress the effects of fat mutations on gene expression, cell affinity and growth in imaginal discs. Dachs protein localization is influenced by Fat, Four-jointed and Dachsous, consistent with its genetic placement downstream of fat. However, dachs mutations have only mild tissue polarity phenotypes, and only partially suppress the tissue polarity defects of fat mutants. Our results implicate Dachs as a crucial downstream component of a Fat signaling pathway that influences growth, affinity and gene expression during development.