Blastic plasmacytoid dendritic cell neoplasm

Blastic plasmacytoid dendritic cell neoplasm occurs in children, but is more common in adults, particularly those between the ages 60–80. BPDCN usually (i.e. 61% to 90% of cases) presents with skin lesions, i.e. nodules, tumors, red or purple papules, bruise-like patches, and/or ulcers that most often occur on the head, face, and upper torso. The lesions are due to diffuse infiltrations of the skin by malignant pDC. In one large study, this presentation was accompanied by swollen lymph nodes, usually in the neck, due to malignant pDC infiltrations (~50% of cases); enlarged liver (~16% of cases) and/or spleen (26% of cases), also due to malignant pDC infiltrations; increased levels of malignant pDC in blood (i.e. >2% of nucleated cells) (~40% of cases), bone marrow (~65% of cases) and cerebrospinal fluid (47% of childhood cases but less often detected in adult cases). More advanced or severe cases may present with extreme organ and/or lymph node enlargements, skin lesions in virtually any site, and clinical evidence of malignant pDC infiltrations in the breasts, eyes, kidneys, lungs, gastrointestinal tract, bone, sinuses, ears, or testes. About 10% of individuals with BPDCN present with a leukemia-like disease, i.e. they exhibit circulating malignant pDC, anemia, thrombocytopenia, and/or leukopenia due to extensive malignant pDC infiltrations in the bone marrow. A leukemic phase of the disease is a common feature of end stage and post-therapy relapsing BPDCN. == Pathophysiology ==

There are three types of dendritic cells, plasmacytic dendritic cells (pDC) and two types of conventional dendritic cells (cDC), myeloid cDC1 and myeloid cDC2. pDC circulate in the blood, representing <0.4% of all nucleated blood cells, and are present in various hematological tissues such as lymph nodes and spleen. and type III interleukin-3 receptor (i.e. CD123), CLEC4C, and Neuropilin, and 4) duplication or loss of entire chromosomes, particularly chromosomes 9, 13, or 15. Presumably, these genetic abnormalities lead to the activation of the NF-κB pathway and/or other cellular activation pathways which promote the survival, proliferation, and/or other malignant phenotypic traits in pDC and thereby cause BPDCN. == Diagnosis ==

BPDCN is suggested by a biopsy of skin lesions which reveals the infiltration by medium-sized blast (i.e. immature) cells into the dermis while sparing the epidermis. These cells exhibit irregular nuclei, fine chromatin, and at least one small nucleolus. Such blast cells may also be observed in the circulation, bone marrow, or other tissues and suggest BPDCN. However, the diagnosis of this disease requires determination that these cells are pDC blast cells rather than AML, T-cell lymphoblastic lymphoma (TCLL), or aggressive NK-cell leukemia (NKL) blast cells. Various studies have offered similar but not identical criteria to make this determination. All studies agree that pDC should have a typical plasmacytoid morphology and express a particular profile of marker proteins as detected by immunoassay and/or flow cytometry. However, the studies disagree on which marker proteins to profile. One study's profile assayed 1) CD4, CD56, CD123 (i.e. Interleukin-3 receptor, and TLC1, which are expressed on 80–100% of pDC but uncommon on AML, TCLL, or NKL blasts); 2) CD2AP and CLEC4C which are unique to pDC; and 3) myeloperoxidase, lysozyme, CD34, CD14, CD11c, and CD163 which are unique to AML, TCLL, or NKL blasts. Two other studies recommended assaying somewhat different sets of marker proteins. ==Treatment==

There have been no controlled studies to define the optimal treatment for BPDCN. While few studies have reported on the treatment of BPDCN that has recurred following initial therapy, donor lymphocyte infusions coupled with alternative chemotherapy treatments have induced second complete or partial remissions in a few patients. Tagraxofusp-erzs is a fusion protein consisting of interleukin 3 (i.e. IL-3) fused to diphtheria toxin. The fusion protein readily kills cultured pDC by binding to their IL-3 receptors to thereby gain entrance to the cells and then blocking these cells' protein synthesis (due to diphtheria toxin-mediated inhibition of eukaryotic elongation factor 2). == Prognosis ==

Due to the high rates of recurrence following initial therapy and the short overall survival times of individuals with BPDCN, prognosis of the disease is poor. However, further study of treatment regimens that include intrathecal chemotherapy and hematological stem cell transplantation in initial treatment regimens (see previous section) and newer non-chemotherapeutic drug treatments (see next section) may improve this situation. == Research ==

UCART123 UCART123 are chimeric T cell receptor-bearing cells, i.e. T lymphocytes engineered to bear a monoclonal antibody that directs them to attack and kill BPDCN cells. The intravenous infusion of these cells in patients with BPDCN is in phase 1 clinical trials The suspension was lifted in November 2017 after the trial used reduced amounts of the cells and with additional conditions were applied. A new phase 1 clinical trial is now recruiting 76 new patients to study the safety and efficacy of UCAR123 in treating BPDCN. The study began in June 2017 and is scheduled to end in December 2021. Venetoclax BCL-2 is a cellular protein that can act to inhibit cell death due to apoptosis. The BCL-2 gene appears to be one of the most up-regulated (i.e. overactive) genes in BPDCN. Venetoclax inhibits the apoptosis-inhibiting action of BCL-2 and proved active in treating two patients with relapsed or refractory BPDCN. == References ==