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KrasP34R and KrasT58I mutations induce distinct RASopathy phenotypes in mice
Jasmine C. Wong, Pedro A. Perez-Mancera, Tannie Q. Huang, Jangkyung Kim, Joaquim Grego-Bessa, Maria del pilar Alzamora, Scott C. Kogan, Amnon Sharir, Susan H. Keefe, Carolina E. Morales, Denny Schanze, Pau Castel, Kentaro Hirose, Guo N. Huang, Martin Zenker, Dean Sheppard, Ophir D. Klein, David A. Tuveson, Benjamin S. Braun, Kevin Shannon
Jasmine C. Wong, Pedro A. Perez-Mancera, Tannie Q. Huang, Jangkyung Kim, Joaquim Grego-Bessa, Maria del pilar Alzamora, Scott C. Kogan, Amnon Sharir, Susan H. Keefe, Carolina E. Morales, Denny Schanze, Pau Castel, Kentaro Hirose, Guo N. Huang, Martin Zenker, Dean Sheppard, Ophir D. Klein, David A. Tuveson, Benjamin S. Braun, Kevin Shannon
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Research Article Genetics

KrasP34R and KrasT58I mutations induce distinct RASopathy phenotypes in mice

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Abstract

Somatic KRAS mutations are highly prevalent in many cancers. In addition, a distinct spectrum of germline KRAS mutations causes developmental disorders called RASopathies. The mutant proteins encoded by these germline KRAS mutations are less biochemically and functionally activated than those in cancer. We generated mice harboring conditional KrasLSL-P34Rand KrasLSL-T58I knock-in alleles and characterized the consequences of each mutation in vivo. Embryonic expression of KrasT58I resulted in craniofacial abnormalities reminiscent of those seen in RASopathy disorders, and these mice exhibited hyperplastic growth of multiple organs, modest alterations in cardiac valvulogenesis, myocardial hypertrophy, and myeloproliferation. By contrast, embryonic KrasP34R expression resulted in early perinatal lethality from respiratory failure due to defective lung sacculation, which was associated with aberrant ERK activity in lung epithelial cells. Somatic Mx1-Cre–mediated activation in the hematopoietic compartment showed that KrasP34R and KrasT58I expression had distinct signaling effects, despite causing a similar spectrum of hematologic diseases. These potentially novel strains are robust models for investigating the consequences of expressing endogenous levels of hyperactive K-Ras in different developing and adult tissues, for comparing how oncogenic and germline K-Ras proteins perturb signaling networks and cell fate decisions, and for performing preclinical therapeutic trials.

Authors

Jasmine C. Wong, Pedro A. Perez-Mancera, Tannie Q. Huang, Jangkyung Kim, Joaquim Grego-Bessa, Maria del pilar Alzamora, Scott C. Kogan, Amnon Sharir, Susan H. Keefe, Carolina E. Morales, Denny Schanze, Pau Castel, Kentaro Hirose, Guo N. Huang, Martin Zenker, Dean Sheppard, Ophir D. Klein, David A. Tuveson, Benjamin S. Braun, Kevin Shannon

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Figure 2

Organ enlargement in 6- to 8-month-old KrasT58I/+ mice.

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Organ enlargement in 6- to 8-month-old KrasT58I/+ mice.
(A) Gross appear...
(A) Gross appearance (top) and heart weight–to–body weight ratios (middle) of WT mice (n = 9, 7 male and 2 female mice) and their KrasT58I/+ littermates (n = 8, 6 male and 2 female mice). Mean ± SEM. Hearts were stained with Masson’s trichrome, and transverse sections were made at the papillary muscle level (bottom). RV, right ventricle; LV, left ventricle; IVS, interventricular septum. Asterisks indicate the papillary muscle. (B) Gross appearance (top), weights (mean and SEM are shown; middle), and representative histologic appearance (bottom) of representative spleens from WT and KrasT58I/+ mice. The mice analyzed were on either a F1 B6/129 (white circles or squares) or mixed B6/129 strain (colored circles or squares) background. Note expanded red pulp, with increased myeloid elements, in KrasT58I/+ spleens. Scale bar: 120 μM; 60 μM (for insets). Statistical significance was evaluated by Student’s t test.

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