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Richard A. Lockshin

Richard A. Lockshin
Richard A. Lockshin.jpg
Richard A. Lockshin
Born December 1937
Columbus, Ohio
Nationality American
Alma mater Harvard University
Doctoral advisor Carroll Williams
Known for apoptosis
Influenced Robert Horvitz

Richard A. Lockshin (born December 1937 in Columbus, Ohio) is an American cellular biologist known for his work on apoptosis.

He was educated at Harvard University where, in 1959, he obtained his bachelor's degree. This was followed by doctoral studies at Harvard University under the guidance of Carroll Williams. Lockshin focused mainly on developmental cell death in insects and for which he received his Ph.D. in 1963. In 1964, Lockshin and Williams published their landmark contribution on "Programmed Cell Death: Endocrine potentiation of the breakdown of the intersegmental muscles of silkmoths", in which they coined the term, programmed cell death, during a time in which little research was being carried out on this topic.

Richard Lockshin has made significant contributions to the cell death community. He was one of the founders of the International Cell Death Society and acted as the society's President from 1998 to 2002.

Richard Lockshin is a retired Emeritus professor of St. John's University (Jamaica, NY). Lockshin has a twin brother, Michael D. Lockshin, a rheumatologist.

His laboratory and study group at St. John's University focused on the causal mechanisms of apoptosis, or programmed cell death. The following is specifically was taken from his St. John's University Profile Page:

Our laboratory has focused for many years on cell death, a field that now boasts over 100,000 publications and is known also by the terms "apoptosis" and "programmed cell death". First recognized in development (where does the tail of a metamorphosing tadpole go?), cell death is now considered to be a major component of development, homeostasis, aging, and many diseases. Some examples are:

Most developmental abnormalities (teratologies) arise from excessive or insufficient cell death. In the developing central nervous system, as many as half of the newly-born cells die, with this death being essential for proper neural development. Many forms of cancer are failures of cells to die at the right time. At least half of the cells that die in a heart attack could be salvaged if we knew how to control cell death. A major approach in treating AIDS is to limit the death of the T-cells (most of which are not infected with virus but rather are induced to commit suicide), and Alzheimer's Disease is inherently a problem of cell death.


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