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Delayed skeletal development and IGF-1 deficiency in a mouse model of lysinuric protein intolerance

Stroup, Bridget M. ; Li, Xiaohui ; Ho, Sara ; [et al.]

The Company of Biologists ; 2023

In: Disease Models & Mechanisms Vol. 16, No. 8 ( 2023-08-01)

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In: Disease Models & Mechanisms, The Company of Biologists, Vol. 16, No. 8 ( 2023-08-01)

Abstract: SLC7A7 deficiency, or lysinuric protein intolerance (LPI), causes loss of function of the y+LAT1 transporter critical for efflux of arginine, lysine and ornithine in certain cells. LPI is characterized by urea cycle dysfunction, renal disease, immune dysregulation, growth failure, delayed bone age and osteoporosis. We previously reported that Slc7a7 knockout mice (C57BL/6×129/SvEv F2) recapitulate LPI phenotypes, including growth failure. Our main objective in this study was to characterize the skeletal phenotype in these mice. Compared to wild-type littermates, juvenile Slc7a7 knockout mice demonstrated 70% lower body weights, 87% lower plasma IGF-1 concentrations and delayed skeletal development. Because poor survival prevents evaluation of mature knockout mice, we generated a conditional Slc7a7 deletion in mature osteoblasts or mesenchymal cells of the osteo-chondroprogenitor lineage, but no differences in bone architecture were observed. Overall, global Slc7a7 deficiency caused growth failure with low plasma IGF-1 concentrations and delayed skeletal development, but Slc7a7 deficiency in the osteoblastic lineage was not a major contributor to these phenotypes. Future studies utilizing additional tissue-specific Slc7a7 knockout models may help dissect cell-autonomous and non-cell-autonomous mechanisms underlying phenotypes in LPI.

Type of Medium: Online Resource

ISSN: 1754-8403 , 1754-8411

URL: Article

DOI: 10.1242/dmm.050118

Language: English

Publisher: The Company of Biologists

Publication Date: 2023

detail.hit.zdb_id: 2451104-3

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Testicular germ cell tumors arise in the absence of sex-specific differentiation

Webster, Nicholas J. ; Maywald, Rebecca L. ; Benton, Susan M. ; [et al.]

The Company of Biologists ; 2021

In: Development Vol. 148, No. 9 ( 2021-05-01)

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In: Development, The Company of Biologists, Vol. 148, No. 9 ( 2021-05-01)

Abstract: In response to signals from the embryonic testis, the germ cell intrinsic factor NANOS2 coordinates a transcriptional program necessary for the differentiation of pluripotent-like primordial germ cells toward a unipotent spermatogonial stem cell fate. Emerging evidence indicates that genetic risk factors contribute to testicular germ cell tumor initiation by disrupting sex-specific differentiation. Here, using the 129.MOLF-Chr19 mouse model of testicular teratomas and a NANOS2 reporter allele, we report that the developmental phenotypes required for tumorigenesis, including failure to enter mitotic arrest, retention of pluripotency and delayed sex-specific differentiation, were exclusive to a subpopulation of germ cells failing to express NANOS2. Single-cell RNA sequencing revealed that embryonic day 15.5 NANOS2-deficient germ cells and embryonal carcinoma cells developed a transcriptional profile enriched for MYC signaling, NODAL signaling and primed pluripotency. Moreover, lineage-tracing experiments demonstrated that embryonal carcinoma cells arose exclusively from germ cells failing to express NANOS2. Our results indicate that NANOS2 is the nexus through which several genetic risk factors influence tumor susceptibility. We propose that, in the absence of sex specification, signals native to the developing testis drive germ cell transformation.

Type of Medium: Online Resource

ISSN: 0950-1991 , 1477-9129

URL: Article

DOI: 10.1242/dev.197111

Language: English

Publisher: The Company of Biologists

Publication Date: 2021

detail.hit.zdb_id: 2007916-3

SSG: 12

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Delayed male germ cell sex-specification permits transition into embryonal carcinoma cells with features of primed pluripotency

Dawson, Emily P. ; Lanza, Denise G. ; Webster, Nicholas J. ; [et al.]

The Company of Biologists ; 2018

In: Development Vol. 145, No. 6 ( 2018-03-15)

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In: Development, The Company of Biologists, Vol. 145, No. 6 ( 2018-03-15)

Abstract: Testicular teratomas result from anomalies in embryonic germ cell development. In 129 inbred mice, teratoma initiation coincides with germ cell sex-specific differentiation and the mitotic-meiotic switch: XX and XY germ cells repress pluripotency, XX germ cells initiate meiosis, and XY germ cells activate male-specific differentiation and mitotic arrest. Here, we report that expression of Nanos2, a gene that is crucial to male sex specification, is delayed in teratoma-susceptible germ cells. Decreased expression of Nanos2 was found to be due, in part, to the Nanos2 allele present in 129 mice. In teratoma-susceptible germ cells, diminished expression of genes downstream of Nanos2 disrupted processes that were crucial to male germ cell differentiation. Deficiency for Nanos2 increased teratoma incidence in 129 mice and induced developmental abnormalities associated with tumor initiation in teratoma-resistant germ cells. Finally, in the absence of commitment to the male germ cell fate, we discovered that a subpopulation of teratoma-susceptible germ cells transition into embryonal carcinoma (EC) cells with primed pluripotent features. We conclude that delayed male germ cell sex-specification facilitates the transformation of germ cells with naïve pluripotent features into primed pluripotent EC cells.

Type of Medium: Online Resource

ISSN: 1477-9129 , 0950-1991

URL: Article

DOI: 10.1242/dev.156612

Language: English

Publisher: The Company of Biologists

Publication Date: 2018

detail.hit.zdb_id: 2007916-3

SSG: 12

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