J. F. Lafferty scite author profile

Recently, cultured human adult skin cells were reprogrammed to induced pluripotent stem (iPS) cells, which have characteristics similar to human embryonic stem (hES) cells. Patient-derived iPS cells offer genetic and immunologic advantages for cell and tissue replacement or engineering. The efficiency of generating human iPS cells has been very low; therefore an easily and efficiently reprogrammed cell type is highly desired. Here, we demonstrate that terminally differentiated human amniotic fluid (AF) skin cells provide an accessible source for efficiently generating abundant-induced pluripotent stem (AF-iPS) cells. By induction of pluripotency with the transcription factor quartet (OCT3/4, SOX2, KLF4, and c-MYC) the terminally differentiated, cultured AF skin cells formed iPS colonies approximately twice as fast and yielded nearly a two-hundred percent increase in number, compared to cultured adult skin cells. AF-iPS cells were identical to hES cells for morphological and growth characteristics, antigenic stem cell markers, stem cell gene expression, telomerase activity, in vitro and in vivo differentiation into the three germ layers and for their capacity to form embryoid bodies (EBs) and teratomas. Our findings provide a biological interesting conclusion that these fetal AF cells are more rapidly, easily, and efficiently reprogrammed to pluripotency than neonatal and adult cells. AF-iPS cells may have a "young," more embryonic like epigenetic background, which may facilitate and accelerate pluripotency. The ability to efficiently and rapidly reprogram terminally differentiated AF skin cells and generate induced pluripotent stem cells provides an abundant iPS cell source for various basic studies and a potential for future patient-specific personalized therapies.

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The Influence of Stress Frequency on the Fatigue Strength of Cortical Bone

Lafferty

Raju

1979

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Ligament Strain in the Human Knee Joint

Edwards

Lafferty

Lange

1970

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The kinematics of the human knee joint and the strain of the ligaments as a function of flexion are determined analytically and experimentally. The experimental results were obtained in 13 tests of four knee joints in which the strain in each of the two collateral and two cruciate ligaments was measured with mercury strain gauges while the tibia was rotated through a flexion angle of 130 deg. The values of the relative ligament strain obtained from the analytical model are in good agreement with the experimental results.

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Electrical properties of bone as a function of age, immobilization and vibration

Swanson

Lafferty

1972

Journal of Biomechanics

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Response of the Intervertebral Disk of the Rhesus Monkey to P-A Shear Stress

Lantz

Lafferty

Bowman

1980

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J. F. Lafferty

Amniotic Fluid Cells Are More Efficiently Reprogrammed to Pluripotency Than Adult Cells

The Influence of Stress Frequency on the Fatigue Strength of Cortical Bone

Ligament Strain in the Human Knee Joint

Electrical properties of bone as a function of age, immobilization and vibration

Response of the Intervertebral Disk of the Rhesus Monkey to P-A Shear Stress

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