Isabella T. Borges scite author profile

Platelets are released from megakaryocytes. The bone marrow has been proposed to be the major site where this process occurs. Lefrançais et al. (2017) using state-of-the-art techniques including two-photon microscopy, in vivo lineage-tracing technologies, and sophisticated lung transplants reveal that the lung is also a primary site for platelet biogenesis. Strikingly, lung megakaryocytes can completely reconstitute platelet counts in the blood in mice with thrombocytopenia. This study also shows that hematopoietic progenitors, with capacity to repopulate the bone marrow after irradiation, are present in the lungs. This work brings a novel unexpected role for the lung as a niche for hematopoiesis. The emerging knowledge from this research may be important for the treatment of several disorders.

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Clinical correlation of apoptosis in human granulosa cells—A review

Almeida

Ferreira

Silveira

et al. 2018

Cell Biology International

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The quality of oocytes depends on interactions with surrounding granulosa cells. Granulosa cells are essential in normal follicular maturation process since they produce steroidal hormones and growth factors, and they play a crucial role in follicular atresia. The success in reproductive biology and medicine depends on reliable assessment of oocyte and embryo viability which presently mainly bases on oocyte and embryo morphology. Recent investigations have tried to establish an evaluation system for oocyte quality and to predict outcome of in vitro fertilization (IVF) based on the incidence of granulosa cells and cumulus cells apoptosis. Apoptosis of granulosa cells seems to have a negative effect on conception and pregnancy rates in IFV programs. Thus, in this review we present a brief outline of clinical correlation of apoptosis in human granulosa cells and cumulus cells, and its influence upon oocyte quality and IFV outcome. Taken together, understanding the influence of granulosa cell apoptosis on oocyte quality and maturity as well as on embryo health may ultimately allow scientists and clinicians to harness better protocols of ovarian stimulation for infertility treatments.

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Endothelial Cells as Precursors for Osteoblasts in the Metastatic Prostate Cancer Bone

et al. 2017

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Prostate cancer cells metastasize to the bones, causing ectopic bone formation, which results in fractures and pain. The cellular mechanisms underlying new bone production are unknown. In a recent study, Lin and colleagues, by using state-of-the-art techniques, including prostate cancer mouse models in combination with sophisticated in vivo lineage-tracing technologies, revealed that endothelial cells form osteoblasts induced by prostate cancer metastasis in the bone. Strikingly, genetic deletion of osteorix protein from endothelial cells affected prostate cancer–induced osteogenesis in vivo. Deciphering the osteoblasts origin in the bone microenvironment may result in the development of promising new molecular targets for prostate cancer therapy.

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Identity of Gli1+ cells in the bone marrow

Sena

Prazeres

Santos

et al. 2017

Experimental Hematology

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Bone marrow fibrosis is a critical component of primary myelofibrosis in which normal bone marrow tissue and blood-forming cells are gradually replaced with scar tissue. The specific cellular and molecular mechanisms that cause bone marrow fibrosis are not understood. A recent study by using state-of-the-art techniques including in vivo lineage-tracing provides evidence that Gli1+ cells are the cells responsible for fibrotic disease in the bone marrow. Strikingly, genetic depletion of Gli1+ cells rescues bone marrow failure and abolishes myelofibrosis. This work brings a new central cellular target for bone marrow fibrosis. The emerging knowledge from this research will be important for the treatment of several malignant and non-malignant disorders.

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LepR+ cells dispute hegemony with Gli1+ cells in bone marrow fibrosis

et al. 2017

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Bone marrow fibrosis is a reactive process, and a central pathological feature of primary myelofibrosis. Revealing the origin of fibroblastic cells in the bone marrow is crucial, as these cells are considered an ideal, and essential target for anti-fibrotic therapy. In 2 recent studies, Decker et al. (2017) and Schneider et al. (2017), by using state-of-the-art techniques including in vivo lineage-tracing, provide evidence that leptin receptor (LepR)-expressing and Gli1-expressing cells are responsible for fibrotic tissue deposition in the bone marrow. However, what is the relationship between these 2 bone marrow cell populations, and what are their relative contributions to bone marrow fibrosis remain unclear. From a drug development perspective, these works bring new cellular targets for bone marrow fibrosis.

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