What's a stem cell?

The foundational building blocks of living organisms, stem cells are defined by two characteristics:

In humans, there are different types of stem cells that originate from different parts of the body and emerge during different times in our lives. These include embryonic stem cells, which only exist during the earliest stages of development, and tissue-specific stem cells,which arise during fetal development and persist throughout life.

"Stem cells are the foundation of organisms, the stalk from which everything buds and branches.

Alexander Capron Bioethicist, World Health Organization

Tissue-Specific Stem Cells

Tissue-specific stem cells, sometimes referred to as adult or somatic stem cells, contribute to the bodys ability to create new cells that can restore damaged organs and tissues. They also replace cells that are lost in normal day-to-day living.

Scientists now know that small populations of tissue-specific stem cells reside in many organs and tissues, including the brain, skeletal muscle, skin, heart, intestines and liver. While tissue-specific stem cells can help the body repair by producing all the cell types within their designated tissues, their ability to regenerate is limited and decreases over time.

Blood stem cells, also known as hematopoietic stem cells, are found in the bone marrow and generate the different kinds of blood cells needed over a persons lifespan. This includes red blood cells, white blood cells also known as immune cells and platelets. Transplants of blood stem cells have been used to treat patients with blood and immune diseases such as leukemia and aplastic anemia for more than 50 years. Today, the sources of blood stem cells used for transplantation include bone marrow, umbilical cord blood and peripheral blood.

Human Embryonic Stem Cells

In 1998, scientists succeeded in isolating human embryonic stem cells, or hESCs, for the first time. Since then, the more versatile and flexible regenerative potential of hESCshas proved vital to scientific research, enabling scientists to learn about human developmental processes that would otherwise be inaccessible.Unlike tissue-specific stem cells, hESCs have two distinct capabilities: They can replicate indefinitely, and theyre pluripotent, meaning they can produce the more than 200 cell types found in the human body through a process called differentiation.

Induced Pluripotent Stem Cells

In 2006, a team in Japan showed it was possible to induce pluripotency in mature cells, creating what are known as induced pluripotent stem cells, or iPSCs. Shortly after, center members Drs. Kathrin Plath, William Lowry, Amander Clark and April Pyle were the first in California to report the successful generation of iPSCs.

iPSCs originate from cells such as skin or blood that are removed from a person and reprogrammed back to a pluripotent state. Like hESCs, these reprogrammed cells can replicate indefinitely as well as differentiate into any cell type in the human body. Since iPSCs are made from a patients own cells, therapies created from these cells could potentially be perfectly matched to the patient.

Visit ourResearch Area pages to learn how our multidisciplinary teams of scientists, clinicians and engineers are conducting stem cell research thats driving medical and scientific knowledge in new directions, fundamentally changing the understanding and treatment of disease.

All of the human embryonic stem cells currently used in research come from cell lines that have been approved for research and registered with the National Institutes of Health. The original hESCs used to establish these lines come from embryos that are donated from consenting individuals or couples who have unused embryos after in vitro fertilization, or IVF, procedures. The embryonic stem cells are isolated from the inner cell mass of the blastocyst, a stage in early human embryonic development that occurs within the first four to six days after fertilization. Once hESCs are isolated, the cells may be kept alive and multiplied under specific laboratory conditions. Visit the California Institute for Regenerative Medicine's page on stem cell research to learn more about this process.

The human tissuetypically skin or bloodused to create induced pluripotent stem cell lines is donated by consenting individuals under specific research protocols.

View post:

Understanding Stem Cell Research | UCLA BSCRC

Related Post

Leave a comment

Your email address will not be published. Required fields are marked *


Refresh