WCMC-Q biomedical research program builds scientific knowledge, technical workforce in Qatar

November 01, 2009

Doha, Oct. 26, 2009 - The biomedical research program of Weill Cornell Medical College in Qatar has made significant progress in its dual goals of advancing basic science and building a sustainable research community in Qatar since it was launched less than a year and a half ago.

From the sequencing of the date palm genome to improved understanding of the molecular mechanisms of cellular signalling and the differentiation of embryonic stem cells, the program is generating new information about complex biological systems that will contribute to effective disease prevention and treatment strategies.

It has also nearly doubled in size, adding almost two-dozen trained research professionals who are helping to build Qatar's scientific and technical workforce and strengthening its research infrastructure. Besides hiring several young graduates of Qatar University as research assistants and providing them with additional training in scientific techniques and laboratory protocols, new staff have been recruited with valuable compliance and regulatory expertise to ensure the research program maintains the highest levels of quality and safety.

Unveiling a progress report on biomedical research at the college today, Dr Fathy Saoud, president of Qatar Foundation, said: "WCMC-Q plays a crucial role in creating a culture of research in Qatar. It is a pioneer here and research at the end of the day is about improving the quality of life for people. With all our partners, biomedical research is just as important in Qatar as it is around the world. I believe we are showing global audiences that we have a role model here that can motivate others to develop similar initiatives. We are showing the rest of the world that Qatar intends to become a research hub for the region and is making progress on its long term goal."

Dr. Antonio M. Gotto, Jr., dean of Weill Cornell Medical College in New York said: "Impressive progress has already been made in starting this program and I am delighted Qatar Foundation and WCMC will be involved as partners long term. This is a major commitment and we have a long way to go in building a research community but I am very encouraged by the start that has been made. Together with my colleagues in the United States, we look forward to helping the country establish itself as a major center for biomedical research."

"In just over a year, our biomedical research program has moved from vision to reality," says Dr. Javaid Sheikh, interim dean of Weill Cornell Medical College in Qatar. "Our laboratories are staffed with first rate scientists, excellent post-doctoral fellows, technicians and administrators. They are generating knowledge that will help us improve health care in Qatar, the Gulf Region and around the world and help create a sustainable local research community."

Introduction of New Technology

Through its biomedical research program, WCMC-Q has introduced sophisticated new expertise to Qatar, including next generation genomic sequencing technology. WCMC-Q researchers used the technology to generate the world's first draft sequence of the date palm genome. The genetic information is extremely valuable to researchers working to improve fruit yield and quality. Even more significantly, the successful project validates the capabilities of the WCMC-Q genomics lab and its ability to apply the most advanced technologies to biomedical research in Qatar.

Another new technology introduced to Qatar is fluorescence-activated cell sorting which is used by researchers in WCMC-Q's stem cell laboratory to separate and purify collections of stem cells with great speed and precision. The technology, which requires great expertise and is essential to stem cell research, is available in only a few academic research laboratories around the world.

Building a Research Infrastructure

With more than $19 million from Qatar Foundation's National Priorities Research Program, WCMC-Q has begun outfitting six new laboratories to investigate causes and treatments for diseases prevalent in the Gulf Region, such as diabetes, cardiovascular disease and respiratory illnesses. The funding also supports studies that will apply the latest proteomic, genomic and imaging technologies to a broad array of biological and molecular processes to advance the basic understanding of disease development and develop therapeutic interventions.

With additional grants during the year from Qatar Foundation's Undergraduate Research Experience Program, nearly 50 WCMC-Q students are investigating topics such as the molecular and genetic basis of breast cancer and bone formation and barriers to early cancer screening in Arab women. Besides introducing students to the latest research techniques, the research studies familiarize them with the crucial relationship between basic science and medicine.

Publishing New Knowledge

WCMC-Q research is appearing in prestigious international scientific journals. New research on the molecular mechanisms of cellular signalling performed in the laboratory of Khaled Machaca, PhD, professor of physiology and physics, was published in the Oct. 14 edition of the Proceedings of the National Academy of Sciences, one of the world's most cited multidisciplinary scientific journals. The research elaborates on a basic aspect of many physiological and pathological processes, including reproduction, the development of immune responses and the spread of cancer cells; and it was performed exclusively in WCMC-Q laboratories.

Other eminent scientific publications showcased research by WCMC-Q faculty members in collaboration with renowned research centers around the world. Laith Abu Raddad, PhD, assistant professor of public health and physics, collaborated on a study funded by the Bill and Melinda Gates Foundation and published in the Proceedings of the National Academy of Sciences. It assessed the impact of the foundation's funded interventions designed to eliminate tuberculosis by the year 2050.

Ahmed Teebi, MD, professor of genetics, collaborated on a study on chromosomal variations in autism spectrum disorder that was published in the American Journal of Human Genetics.

"Our progress in a short time is truly gratifying. It is a tribute to the strong partnership built by Weill Cornell Medical College and Qatar Foundation," says Dr. Sheikh. "We take great pride in our accomplishments so far and we are confident that the future holds even greater promise."

WCMC-Q bio-medical research at a glance... one program - multiple partners

WCMC-Q, Qatar Foundation, Hamad Medical Corporation (HMC), Supreme Health Council, Ministry of Health, Sidra Medical and Research Centre, Qatar Science and Technology Park (QSTP) and WCMC in New York. Eminent researchers and faculty there are playing major roles in establishing this program.

Two proof of concept research projects. Focus Website: http://www.qatar-med.cornell.edu

About Qatar Foundation

Founded in 1995 by decree of His Highness Sheikh Hamad Bin Khalifa Al Thani, Emir of Qatar, Qatar Foundation is a non-profit organization focusing on education, scientific research and community development. Under Qatar Foundation's umbrella are Education City, which comprises elite universities, several academic and training programmes, and Qatar Science and Technology Park, which boasts more than 21 world class companies involved in scientific research and development. Chaired by Her Highness Sheikha Mozah bint Nasser Al Missned, Qatar Foundation also aims to enhance lives through community development initiatives including Doha Debates, Reach out To Asia and Al Jazeera Childrens Channel. Joint venture partnerships in the areas of design, ICT, telecommunications, policy studies and event management contribute to fulfilling the objectives of Qatar Foundation. Website: www.qf.org.qa

Weill Cornell Medical College-Qatar

Related Stem Cells Articles from Brightsurf:

SUTD researchers create heart cells from stem cells using 3D printing
SUTD researchers 3D printed a micro-scaled physical device to demonstrate a new level of control in the directed differentiation of stem cells, enhancing the production of cardiomyocytes.

More selective elimination of leukemia stem cells and blood stem cells
Hematopoietic stem cells from a healthy donor can help patients suffering from acute leukemia.

Computer simulations visualize how DNA is recognized to convert cells into stem cells
Researchers of the Hubrecht Institute (KNAW - The Netherlands) and the Max Planck Institute in Münster (Germany) have revealed how an essential protein helps to activate genomic DNA during the conversion of regular adult human cells into stem cells.

First events in stem cells becoming specialized cells needed for organ development
Cell biologists at the University of Toronto shed light on the very first step stem cells go through to turn into the specialized cells that make up organs.

Surprising research result: All immature cells can develop into stem cells
New sensational study conducted at the University of Copenhagen disproves traditional knowledge of stem cell development.

The development of brain stem cells into new nerve cells and why this can lead to cancer
Stem cells are true Jacks-of-all-trades of our bodies, as they can turn into the many different cell types of all organs.

Healthy blood stem cells have as many DNA mutations as leukemic cells
Researchers from the Princess Máxima Center for Pediatric Oncology have shown that the number of mutations in healthy and leukemic blood stem cells does not differ.

New method grows brain cells from stem cells quickly and efficiently
Researchers at Lund University in Sweden have developed a faster method to generate functional brain cells, called astrocytes, from embryonic stem cells.

NUS researchers confine mature cells to turn them into stem cells
Recent research led by Professor G.V. Shivashankar of the Mechanobiology Institute at the National University of Singapore and the FIRC Institute of Molecular Oncology in Italy, has revealed that mature cells can be reprogrammed into re-deployable stem cells without direct genetic modification -- by confining them to a defined geometric space for an extended period of time.

Researchers develop a new method for turning skin cells into pluripotent stem cells
Researchers at the University of Helsinki, Finland, and Karolinska Institutet, Sweden, have for the first time succeeded in converting human skin cells into pluripotent stem cells by activating the cell's own genes.

Read More: Stem Cells News and Stem Cells Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.