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1.
Nat Commun ; 15(1): 546, 2024 Jan 16.
Artículo en Inglés | MEDLINE | ID: mdl-38228611

RESUMEN

Aging in mammals is accompanied by an imbalance of intestinal homeostasis and accumulation of mitochondrial DNA (mtDNA) mutations. However, little is known about how accumulated mtDNA mutations modulate intestinal homeostasis. We observe the accumulation of mtDNA mutations in the small intestine of aged male mice, suggesting an association with physiological intestinal aging. Using polymerase gamma (POLG) mutator mice and wild-type mice, we generate male mice with progressive mtDNA mutation burdens. Investigation utilizing organoid technology and in vivo intestinal stem cell labeling reveals decreased colony formation efficiency of intestinal crypts and LGR5-expressing intestinal stem cells in response to a threshold mtDNA mutation burden. Mechanistically, increased mtDNA mutation burden exacerbates the aging phenotype of the small intestine through ATF5 dependent mitochondrial unfolded protein response (UPRmt) activation. This aging phenotype is reversed by supplementation with the NAD+ precursor, NMN. Thus, we uncover a NAD+ dependent UPRmt triggered by mtDNA mutations that regulates the intestinal aging.


Asunto(s)
Envejecimiento , NAD , Ratones , Masculino , Animales , NAD/metabolismo , Envejecimiento/genética , Envejecimiento/metabolismo , Mutación , Mitocondrias/genética , Mitocondrias/metabolismo , ADN Mitocondrial/genética , ADN Mitocondrial/metabolismo , ADN Polimerasa gamma/genética , ADN Polimerasa gamma/metabolismo , Mamíferos/genética
2.
Cell Metab ; 36(7): 1586-1597.e7, 2024 Jul 02.
Artículo en Inglés | MEDLINE | ID: mdl-38703762

RESUMEN

The mitochondrial genome transcribes 13 mRNAs coding for well-known proteins essential for oxidative phosphorylation. We demonstrate here that cytochrome b (CYTB), the only mitochondrial-DNA-encoded transcript among complex III, also encodes an unrecognized 187-amino-acid-long protein, CYTB-187AA, using the standard genetic code of cytosolic ribosomes rather than the mitochondrial genetic code. After validating the existence of this mtDNA-encoded protein arising from cytosolic translation (mPACT) using mass spectrometry and antibodies, we show that CYTB-187AA is mainly localized in the mitochondrial matrix and promotes the pluripotent state in primed-to-naive transition by interacting with solute carrier family 25 member 3 (SLC25A3) to modulate ATP production. We further generated a transgenic knockin mouse model of CYTB-187AA silencing and found that reduction of CYTB-187AA impairs females' fertility by decreasing the number of ovarian follicles. For the first time, we uncovered the novel mPACT pattern of a mitochondrial mRNA and demonstrated the physiological function of this 14th protein encoded by mtDNA.


Asunto(s)
Citocromos b , Animales , Citocromos b/genética , Citocromos b/metabolismo , Ratones , Femenino , Ratones Transgénicos , ADN Mitocondrial/genética , ADN Mitocondrial/metabolismo , Mitocondrias/metabolismo , Proteínas Mitocondriales/metabolismo , Proteínas Mitocondriales/genética , Humanos , Ratones Endogámicos C57BL , Genes Mitocondriales , ARN Mensajero/metabolismo , ARN Mensajero/genética , Masculino
3.
Nat Commun ; 13(1): 7414, 2022 12 02.
Artículo en Inglés | MEDLINE | ID: mdl-36460681

RESUMEN

Pluripotent stem cells hold great promise in regenerative medicine and developmental biology studies. Mitochondrial metabolites, including tricarboxylic acid (TCA) cycle intermediates, have been reported to play critical roles in pluripotency. Here we show that TCA cycle enzymes including Pdha1, Pcb, Aco2, Cs, Idh3a, Ogdh, Sdha and Mdh2 are translocated to the nucleus during somatic cell reprogramming, primed-to-naive transition and totipotency acquisition. The nuclear-localized TCA cycle enzymes Pdha1, Pcb, Aco2, Cs, Idh3a promote somatic cell reprogramming and primed-to-naive transition. In addition, nuclear-localized TCA cycle enzymes, particularly nuclear-targeted Pdha1, facilitate the 2-cell program in pluripotent stem cells. Mechanistically, nuclear Pdha1 increases the acetyl-CoA and metabolite pool in the nucleus, leading to chromatin remodeling at pluripotency genes by enhancing histone H3 acetylation. Our results reveal an important role of mitochondrial TCA cycle enzymes in the epigenetic regulation of pluripotency that constitutes a mitochondria-to-nucleus retrograde signaling mode in different states of pluripotent acquisition.


Asunto(s)
Epigénesis Genética , Histonas , Acetilación , Núcleo Celular , Mitocondrias
4.
J Insect Physiol ; 111: 8-15, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-30300619

RESUMEN

Matrix metalloproteinases (Mmps) are pivotal extracellular proteinases participating in tissue remodeling. Three Mmps genes have been identified from the silkworm, Bombyx mori, and their expression levels and enzyme activity are consistent with progressive fat body cell dissociation during the early pupal stages. Using both loss-of-function and gain-of-function experiments, we have demonstrated that Mmps are functionally required for fat body cell dissociation and ovary development in female pupae. Moderate inhibition of Mmps activity via inhibitor treatments delayed fat body cell dissociation and ovary development, while severe inhibition blocked these developmental processes and eventually led to pupal lethality. Individual RNAi knockdown of each Mmp delayed fat body cell dissociation, with the strongest and weakest phenotypes occurring for Mmp3 and Mmp1, respectively. By contrast, overexpression of each Mmp promoted fat body cell dissociation and ovary development, with the strongest stimulatory effects for Mmp3 overexpression and the weakest effects for Mmp1 overexpression. This is the first time to show that Mmps induce fat body cell dissociation in Lepidoptera, and we also hypothesize that Mmps-induced fat body cell dissociation is required for ovary development in this insect species.


Asunto(s)
Bombyx/genética , Cuerpo Adiposo/citología , Regulación del Desarrollo de la Expresión Génica , Proteínas de Insectos/genética , Metaloproteinasa 1 de la Matriz/genética , Metaloproteinasa 2 de la Matriz/genética , Metaloproteinasa 3 de la Matriz/genética , Animales , Bombyx/crecimiento & desarrollo , Bombyx/metabolismo , Femenino , Proteínas de Insectos/metabolismo , Larva/genética , Larva/crecimiento & desarrollo , Larva/metabolismo , Metaloproteinasa 1 de la Matriz/metabolismo , Metaloproteinasa 2 de la Matriz/metabolismo , Metaloproteinasa 3 de la Matriz/metabolismo , Ovario/crecimiento & desarrollo , Filogenia
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