Epstein-Barr virus (EBV)-associated posttransplant smooth muscle tumors (PTSMT)are very rare complications. We aimed to provide a clinicopathological characterization which is based on our own case series (n = 5) as well as previously reported PTSMT cases (n = 63). Meta-analysis of PTSMT and molecular analysis of tumor cells from our cohort was performed. Most PTSMT developed in kidney-transplanted patients (n = 41/68, 60%). Liver/transplant liver was the main site of manifestation (n = 38/68, 56%). Tumors occurred after a median interval of 48 months (range 5-348) and developed earlier in children than in adults. Most tumors showed no marked cellular atypia, low mitosis rate and no tumor necrosis. Gene expression analysis of 20 EBV-related genes, including two microRNAs, revealed overexpression of MYC (p = 0.0357). Therapy was mainly based on surgical resection or reduced immunosuppression but no significant differences in overall survival were evident. Lower overall survival was associated with multiorgan involvement (n = 33/68, 48.5%) and particularly with intracranial PTSMT manifestation (n = 7/68, 10%; p < 0.02), but not transplant involvement (n = 11/68, 16%). In summary, PTSMT differ from conventional leiomyosarcomas by their lack of marked atypia, unusual sites of involvement and defining EBV association. Surgery and reduced immunosuppression show comparable clinical results and prognosis is associated with intracranial manifestation.
Human T-cell function is dependent on T-cell antigen receptor (TCR) and co-signalling as evidenced by immunodeficiencies affecting TCR-dependent signalling pathways. Here, we show four human patients with EBV+ disseminated smooth muscle tumours that carry two homozygous loss-of-function mutations in the CARMIL2 (RLTPR) gene encoding the capping protein regulator and myosin 1 linker 2. These patients lack regulatory T cells without evidence of organ-specific autoimmunity, and have defective CD28 co-signalling associated with impaired T-cell activation, differentiation and function, as well as perturbed cytoskeletal organization associated with T-cell polarity and migration disorders. Human CARMIL2-deficiency is therefore an autosomal recessive primary immunodeficiency disorder associated with defective CD28-mediated TCR co-signalling and impaired cytoskeletal dynamics.
Early and late childhood PTLD have distinct characteristics. Whereas early PTLD appears mainly as an Epstein-Barr virus-driven disease especially favored by insufficient immunosurveillance, late PTLD often resembles tumors with distinct pathogenetic alterations and nodal appearance.
A common JAK2 germline haplotype (46/1) has been associated with JAK2V617F (VF)-positive myeloproliferative neoplasms. The rs12343867 SNP (C/T) tags this haplotype. A total of 130 patients (77 VF-positive) with primary myelofibrosis (PMF) were analyzed for this informative SNP, using bone marrow-derived DNA. The observed 46/1 C allele frequencies in VF-positive (50%) and VFnegative (36%) patients were both significantly higher than expected in population controls (Po0.01). Genotype distributions in VF-positive/VF-negative patients were CC 31%/9%, CT 38%/53% and TT 31%/38% (P ¼ 0.01). CC genotype/C-allele frequencies in patients with o20% VF mutation burden (12%/ 37%) were similar (P ¼ 0.95) to those seen in VF-negative patients (9%/36%), but were significantly lower (Po0.01) than those seen in the presence of 450% mutation burden (B67%/71%). The rs12343867 genotype did not correlate with the International Prognostic Scoring System (IPSS) score or karyotype. Unexpectedly, the TT genotype was associated with shortened survival (Po0.01), which was not accounted for by IPSS score or VF allele burden. We conclude that JAK2 germline genetic variation affects disease susceptibility, and possibly survival, in PMF, regardless of VF mutational status. Allelic distortion from acquired uniparental disomy contributes to the appearance of a more pronounced effect on disease susceptibility in VF-positive patients, when studying clonally affected tissue.
Aims
In the era of potentially disease‐modifying agents such as Janus kinase inhibitors, accurate grading and differentiation of bone marrow (BM) fibrosis has become more relevant to assess staging of disease and therapeutic effects. However, different fibrosis grading models have been used in the past without uniformity, including the proposal by the World Health Organization. Current scoring systems are based only on reticulin fibrosis. Therefore, additional assessment of collagen and the grade of osteosclerosis appear to be essential to discriminate all components of the complex BM fibrous matrix.
Methods and results
We evaluated problems and pitfalls regarding staining techniques and the interpretation of reticulin fibrosis on a total of 352 samples. Furthermore, we propose a minor modification of the current grading and separate scoring for collagen deposition and osteosclerosis. Reproducibility of gradings was tested among 11 haematopathologists in a blinded assessment. Overall, the inter‐rater reliability of all three grading systems ranged between 0.898 and 0.926.
Conclusions
A standardized assessment of BM fibrosis with differentiation between reticulin, collagen and osteosclerosis is recommended to evaluate the various components of the fibrous matrix which may be delinked after therapy. In this regard, quality of staining and application of laboratory standards enable a highly reproducible scoring.
We found that hematopoietic cell–specific Lyn substrate 1 (HCLS1
or HS1) is highly expressed in human myeloid cells and that stimulation with
granulocyte colony-stimulating factor (G-CSF) leads to HCLS1 phosphorylation.
HCLS1 binds the transcription factor lymphoid-enhancer binding factor 1 (LEF-1),
transporting LEF-1 into the nucleus upon G-CSF stimulation and inducing LEF-1
autoregulation. In patients with severe congenital neutropenia, inherited
mutations in the gene encoding HCLS1-associated protein X-1 (HAX1) lead to
profound defects in G-CSF–triggered phosphorylation of HCLS1 and
subsequently to reduced autoregulation and expression of LEF-1. Consistent with
these results, HCLS1-deficient mice are neutropenic. In bone marrow biopsies of
the majority of tested patients with acute myeloid leukemia, HCLS1 protein
expression is substantially elevated, associated with high levels of G-CSF
synthesis and, in some individuals, a four-residue insertion in a proline-rich
region of HCLS1 protein known to accelerate intracellular signaling. These data
demonstrate the importance of HCLS1 in myelopoiesis in vitro
and in vivo.
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