STAT3-Mutations Indicate the Presence of Subclinical Self-Reactive Cytotoxic T Cell Clones in Aplastic Anemia and Myelodysplastic Syndromes

Jerez, Andrés; Clemente, Michael J.; Makishima, Hideki; Koskela, Hanna; Gómez-Seguí, Inés; Olson, Thomas L.; McGraw, Kathy L.; Przychodzen, Bartlomiej; Kulasekararaj, Austin; Afable, Manuel; Husseinzadeh, Holleh; Evans, E. P.; Hosono, Naoko; LeBlanc, Francis; Lagström, Sonja; Zhang, Dan; Ellonen, Pekka; Lichtin, Alan E.; Wodnar-Filipowicz, Aleksandra; Mufti, Ghulam J.; List, Alan F.; Mustjoki, Satu; Loughran, Thomas P.; Maciejewski, Jaroslaw P.

doi:10.1182/blood.v120.21.646.646

Cited by 3 publications

(3 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These cells appear functionally and phenotypically activated 16,17 , skewed to produce type 1 cytokines 18,19 , induce apoptosis via Fas/FasL 20 , and circulate as oligoclones. 21 Acquired, somatic mutations in the STAT3 signaling pathway may be pathogenic in some aplastic anemia, as they are in large granular lymphocytosis, producing constitutively activated T cells 22 . Treg cells are decreased in patients with aplastic anemia and increase with hematologic response.…”

Section: Pathophysiologiesmentioning

confidence: 99%

Aplastic Anemia

2018

View full text Add to dashboard Cite

Section: Pathophysiologiesmentioning

confidence: 99%

Aplastic Anemia

2018

View full text Add to dashboard Cite

“…These mutations may also be present in acquired aplastic anemia. 13 Genomics applied to oligoclones in BM failure states might reveal an acquired genetic basis for abnormal persistence of an initially appropriate immune response (Figure 1).…”

Section: Immune-mediated Bm Destructionmentioning

confidence: 99%

Current concepts in the pathophysiology and treatment of aplastic anemia

2013

View full text Add to dashboard Cite

Historically viewed in isolation as an odd, rare, and invariably fatal blood disease, aplastic anemia is now of substantial interest for its immune pathophysiology, its relationship to constitutional BM failure syndromes and leukemia, and the success of both stem cell transplantation and immunosuppressive therapies in dramatically improving survival of patients. Once relegated to a few presentations in the red cell and anemia sessions of the ASH, the Society now sponsors multiple simultaneous sessions and plenary and scientific committee presentations on these topics. This update emphasizes developments in our understanding of immune mechanisms and hematopoietic stem cell biology and new clinical approaches to stem cell stimulation as a therapy, alone and in combination with conventional suppression of the aberrant immune system.

show abstract

“…appear functionally and phenotypically activated 16,17 , skewed to produce type 1 cytokines 18,19 , induce apoptosis via Fas/FasL 20 , and circulate as oligoclones. 21 Acquired, somatic mutations in the STAT3 signaling pathway may be pathogenic in some aplastic anemia, as they are in large granular lymphocytosis, producing constitutively activated T cells 22 . Treg cells are decreased in patients with aplastic anemia and increase with hematologic response.…”

mentioning

confidence: 99%

Faculty Opinions recommendation of Aplastic Anemia.

Scheinberg¹

2020

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature

View full text Add to dashboard Cite

Aplastic anemia is an historic disease. The first patient was described by the young Paul Ehrlich in 1885, "anemia aplastique" originated with Vaquez in 1904, and its clinical features were described by Cabot and other pathologists in the early 20 th century. In the modern era, an almost uniformly fatal prognosis, mainly for young persons with sudden severe pancytopenia, has been reversed, with development of effective therapies for almost all patients. In the research laboratory understanding of pathophysiology has guided development of therapies. Marrow failure syndromes have been linked viral infection and environmental toxins, inherited and acquired genetic mutations, to the early events in leukemogenesis, and to the hematopoiesis of normal aging. DefinitionsAplastic anemia's long history has produced confusing terminology. "Anemia" derives from early ability to measure red blood cells in a hematocrit. Most patients have pancytopenia, with decreased platelets and white blood cells. "Aplastic" refers to the inability marrow to form blood, the end organ effect of diverse pathophysiologic mechanisms. Historically, identification of aplastic anemia was post-mortem, and the biopsy remains fundamental to diagnosis. Yet a seemingly empty bone marrow may be entirely capable of supporting normal hematopoiesis. Conversely, bone marrow failure can occur with normally cellular marrow, as in the myelodysplastic syndromes (MDS) and paroxysmal nocturnal hemoglobinuria (PNH). PathophysiologiesThree main pathophysiologies produce the pathology of an "empty" marrow (Figure 1). Direct Marrow Damage.Damage occurs most often iatrogenically, from chemotherapy and radiation. Marrow effects are dose-dependent and, at conventional doses, transient; other organ systems are affected; and spontaneous recovery is expected. Benzene, an inexpensive solvent, also damages hematopoiesis, and industrially exposed workers figured prominent in the early literature of aplastic anemia. Benzene now is a negligible risk factor, accounting for only a small etiologic fraction in most countries 1,2 . In China, rapidly industrialized and less regulated, benzene remains a workplace toxin 3,4 .

show abstract

STAT3-Mutations Indicate the Presence of Subclinical Self-Reactive Cytotoxic T Cell Clones in Aplastic Anemia and Myelodysplastic Syndromes

Cited by 3 publications

References 0 publications

Aplastic Anemia

Aplastic Anemia

Current concepts in the pathophysiology and treatment of aplastic anemia

Faculty Opinions recommendation of Aplastic Anemia.

Contact Info

Product

Resources

About