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1.
Nat Commun ; 15(1): 2343, 2024 Mar 15.
Artículo en Inglés | MEDLINE | ID: mdl-38491008

RESUMEN

The intermitochondrial cement (IMC) and chromatoid body (CB) are posited as central sites for piRNA activity in mice, with MIWI initially assembling in the IMC for piRNA processing before translocating to the CB for functional deployment. The regulatory mechanism underpinning MIWI translocation, however, has remained elusive. We unveil that piRNA loading is the trigger for MIWI translocation from the IMC to CB. Mechanistically, piRNA loading facilitates MIWI release from the IMC by weakening its ties with the mitochondria-anchored TDRKH. This, in turn, enables arginine methylation of MIWI, augmenting its binding affinity for TDRD6 and ensuring its integration within the CB. Notably, loss of piRNA-loading ability causes MIWI entrapment in the IMC and its destabilization in male germ cells, leading to defective spermatogenesis and male infertility in mice. Collectively, our findings establish the critical role of piRNA loading in MIWI translocation during spermatogenesis, offering new insights into piRNA biology in mammals.


Asunto(s)
Proteínas Argonautas , Gránulos de Ribonucleoproteína de Células Germinales , ARN de Interacción con Piwi , Animales , Masculino , Ratones , Proteínas Argonautas/metabolismo , Células Germinativas/metabolismo , Mamíferos/genética , Mitocondrias/metabolismo , ARN Interferente Pequeño/genética , ARN Interferente Pequeño/metabolismo , Espermatogénesis/genética , Testículo/metabolismo
2.
Sci China Life Sci ; 66(7): 1459-1481, 2023 07.
Artículo en Inglés | MEDLINE | ID: mdl-37335463

RESUMEN

PIWI-clade proteins harness piRNAs of 24-33 nt in length. Of great puzzles are how PIWI-clade proteins incorporate piRNAs of different sizes and whether the size matters to PIWI/piRNA function. Here we report that a PIWI-Ins module unique in PIWI-clade proteins helps define the length of piRNAs. Deletion of PIWI-Ins in Miwi shifts MIWI to load with shorter piRNAs and causes spermiogenic failure in mice, demonstrating the functional importance of this regulatory module. Mechanistically, we show that longer piRNAs provide additional complementarity to target mRNAs, thereby enhancing the assembly of the MIWI/eIF3f/HuR super-complex for translational activation. Importantly, we identify a c.1108C>T (p.R370W) mutation of HIWI (human PIWIL1) in infertile men and demonstrate in Miwi knock-in mice that this genetic mutation impairs male fertility by altering the property of PIWI-Ins in selecting longer piRNAs. These findings reveal a critical role of PIWI-Ins-ensured longer piRNAs in fine-tuning MIWI/piRNA targeting capacity, proven essential for spermatid development and male fertility.


Asunto(s)
ARN de Interacción con Piwi , Testículo , Humanos , Masculino , Ratones , Animales , Testículo/metabolismo , ARN Interferente Pequeño/genética , ARN Interferente Pequeño/metabolismo , Espermatogénesis/genética , Proteínas/metabolismo , Fertilidad/genética , Proteínas Argonautas/genética , Proteínas Argonautas/metabolismo
4.
Biomolecules ; 11(6)2021 06 01.
Artículo en Inglés | MEDLINE | ID: mdl-34205864

RESUMEN

Animals acquire nutrients and energy through feeding to achieve a balance between growth and organismal health. When there is a change in nutrient acquisition, the state of growth changes and may also cause changes in the intrinsic immune system. Compensatory growth (CG), a specific growth phenomenon, involves the question of whether changes in growth can be accompanied by changes in innate immunity. The zebrafish (Danio rerio), a well-known fish model organism, can serve as a suitable model. In this study, the zebrafish underwent 3 weeks of fasting and refeeding for 3 to 7 day periods. It was found that CG could be achieved in zebrafish. Zebrafish susceptibility to Streptococcus agalactiae increased after starvation. In addition, the amount of melano-macrophage centers increased after fasting and the proportion of injured tubules increased after refeeding for 3 and 5 days, respectively. Furthermore, the kidneys of zebrafish suffering from starvation were under oxidative stress, and the activity of several antioxidant enzymes increased after starvation, including catalase, glutathione peroxidases and superoxide dismutase. Innate immune parameters were influenced by starvation. Additionally, the activity of alkaline phosphatase and lysozyme increased after starvation. The mRNA expression of immune-related genes like il-1ß was elevated to a different extent after fasting with or without lipopolysaccharides (LPS) challenge. This study showed that the function of the innate immune system in zebrafish could be influenced by nutrition status.


Asunto(s)
Ingestión de Alimentos/inmunología , Ayuno , Inmunidad Innata , Riñón/inmunología , Pez Cebra/inmunología , Animales , Antioxidantes , Interleucina-1beta/inmunología , Lipopolisacáridos/toxicidad , Oxidorreductasas/inmunología , Proteínas de Pez Cebra/inmunología
5.
Mol Cell ; 77(5): 999-1013.e6, 2020 03 05.
Artículo en Inglés | MEDLINE | ID: mdl-32017896

RESUMEN

U6 snRNA, as an essential component of the catalytic core of the pre-mRNA processing spliceosome, is heavily modified post-transcriptionally, with 2'-O-methylation being most common. The role of these modifications in pre-mRNA splicing as well as their physiological function in mammals have remained largely unclear. Here we report that the La-related protein LARP7 functions as a critical cofactor for 2'-O-methylation of U6 in mouse male germ cells. Mechanistically, LARP7 promotes U6 loading onto box C/D snoRNP, facilitating U6 2'-O-methylation by box C/D snoRNP. Importantly, ablation of LARP7 in the male germline causes defective U6 2'-O-methylation, massive alterations in pre-mRNA splicing, and spermatogenic failure in mice, which can be rescued by ectopic expression of wild-type LARP7 but not an U6-loading-deficient mutant LARP7. Our data uncover a novel role of LARP7 in regulating U6 2'-O-methylation and demonstrate the functional requirement of such modification for splicing fidelity and spermatogenesis in mice.


Asunto(s)
Precursores del ARN/metabolismo , Empalme del ARN , ARN Mensajero/metabolismo , ARN Nuclear Pequeño/metabolismo , Proteínas de Unión al ARN/metabolismo , Espermatogénesis , Espermatozoides/metabolismo , Empalmosomas/metabolismo , Animales , Fertilidad , Regulación del Desarrollo de la Expresión Génica , Células HEK293 , Humanos , Masculino , Metilación , Ratones Endogámicos C57BL , Ratones Noqueados , Precursores del ARN/genética , ARN Mensajero/genética , ARN Nuclear Pequeño/genética , Proteínas de Unión al ARN/genética , Ribonucleoproteínas Nucleolares Pequeñas/genética , Ribonucleoproteínas Nucleolares Pequeñas/metabolismo , Transducción de Señal , Espermatogénesis/genética , Empalmosomas/genética
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