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本帖最后由 细胞海洋 于 2017-2-8 14:00 编辑
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( x6 F! W ^2 i9 i) pResearchers engineer new thyroid cells
/ h3 @6 Z! O4 jMay lead to new therapies for thyroid disorders& ]$ {& F9 M. F* o) r! z- z3 O4 _
https://www.sciencedaily.com/releases/2017/02/170202123022.htm
( M: W5 X7 G0 Q' E, yDate:February 2, 2017 Source:Boston University Medical Center
, l; x. L* D3 ]) M: A3 _9 JSummary:
; L6 {6 ~, _+ w0 _Researchers have discovered a new efficient way to generate thyroid cells, known as thyrocytes, using genetically modified embryonic stem cells. The findings are the first step to developing a similar protocol using human stem cells that will allow the modeling of thyroid disease to better understand its causes and the development of therapies.( B9 y) Q3 ?1 c3 V9 B, y
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Researchers have discovered a new efficient way to generate thyroid cells, known as thyrocytes, using genetically modified embryonic stem cells.
# Y+ t+ [/ k3 b) C) T* g7 jCredit: © kentoh / Fotolia
. B3 K' P' I0 Z$ g* T! kResearchers have discovered a new efficient way to generate thyroid cells, known as thyrocytes, using genetically modified embryonic stem cells.% ` C% ?3 O/ @' ~ ?$ {$ \8 ^% s3 ?7 Z
~3 _2 H4 Y! B1 c6 a; hThe findings, which appear in the journal Stem Cell Reports, are the first step to developing a similar protocol using human stem cells that will allow the modeling of thyroid disease to better understand its causes and the development of therapies.
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Thyroid disorders affect approximately 10 percent of the U.S. population and include Grave's disease or Hashimoto's disease, which can result in hyper or hypothyroidism, thyroid nodules, goiter or cancer.
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( G' y7 L# J( C1 O+ P" W2 cResearchers from Boston University School of Medicine (BUSM), engineered mouse embryonic stem cells cultured in the lab to express a genetic switch for a specific gene, Nkx2-1, that is important for thyroid development. Then they guided the embryonic stem cells through various stages while switching Nkx2-1 on and off for short periods of time and found there was one narrow timeframe where turning on this gene converted the majority of cells to thyroid cells.
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"This method resulted in high yield of our target cell type, thyroid cells, but it may be applicable for the derivation of other clinically relevant cell types such as lung cells, insulin-producing cells, liver cells, etc.," explained Laertis Ikonomou, PhD, assistant professor of medicine at BUSM and member of the Center for Regenerative Medicine (CReM) at Boston Medical Center and BUSM.
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) }: _( c; u; \) X4 j; c* XThe researchers hope this study will lead to the development of therapeutics or stem cell/genetic engineering technologies that will improve the quality of life for the many people afflicted with thyroid and other disorders.
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8 B& J5 F1 k7 x( e0 m2 {4 hMaterials provided by Boston University Medical Center. Note: Content may be edited for style and length.+ l' Y. \8 a; p5 B: [
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Journal Reference:$ h! R5 K$ g" r2 l+ ?9 U
Keri Dame et al. Thyroid Progenitors Are Robustly Derived from Embryonic Stem Cells through Transient, Developmental Stage-Specific Overexpression of Nkx2-1. Stem Cell Reports, February 2017 DOI: 10.1016/j.stemcr.2016.12.0246 d; l, g3 r4 z) `; y3 A
DOI: http://dx.doi.org/10.1016/j.stemcr.2016.12.024 4 T0 w, t3 D2 b
http://www.cell.com/stem-cell-re ... 213-6711(16)30314-9
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