Editorials
KIT D816V and the cytokine storm in mastocytosis: production and role of interleukin-6
Peter Valent1,2
1Department of Internal Medicine I, Division of Hematology and Hemostaseology and 2Ludwig Boltzmann Institute for Hematology and Oncology, Medical University of Vienna, Vienna, Austria
E-mail: PETER VALENT - peter.valent@meduniwien.ac.at doi:10.3324/haematol.2019.234864
Mast cell disorders (mastocytosis) are a hemato- logic neoplasm defined by abnormal expansion and dense accumulation of clonally altered mast cells in various organ systems.1-5 The disease exhibits a complex pathology and an equally complex pattern of clinical presentations.1-5 The classification of the World Health Organization (WHO) splits mast cell disorders into cutaneous entities, systemic variants, and localized mast cell tumors.2-5 In more than 80% of all cases with systemic mastocytosis (SM), a somatic point mutation in KIT at codon 816 is detected.3-6 Whereas patients with indolent forms of the disease have a normal or close-to-normal life expectancy, patients with advanced mast cell neoplasms, including aggressive SM (ASM) and mast cell leukemia (MCL), have an unfavorable prognosis with clearly reduced survival times.2-5 In a majority of these patients, multiple somatic mutations and/or an associated hemato- logic neoplasm, such as a myeloid leukemia, can be detected. Regardless of the category of mastocytosis and the serum tryptase level, patients with mast cell disorders may suffer from (more or less severe) mediator-related symptoms and/or osteopathy.1-5 Depending on co-mor- bidities, the symptoms in such patients require anti-medi- ator-type therapy and may be mild, more severe, or even life-threatening.5
A number of different mediators and cytokines are pro- duced by mast cells and are involved in the clinical symp- toms and pathological features that can be recorded in patients with mastocytosis.7-12 Histamine is considered one of the most relevant mediators released from activat- ed mast cells in patients with mastocytosis.1-5,9 In fact, many of the symptoms reported by patients with SM can be kept under control by applying histamine receptor (HR)1 and HR2-targeting drugs.5 However, mast cells also produce other clinically relevant mediators, such as prostaglandin D2, leukotrienes, heparin and tryptases.1,9,13,14 In addition, activated mast cells can pro- duce and release a number of functional cytokines, such as tumor necrosis factor (TNF), oncostatin M (OSM), or interleukin-6 (IL-6).7-14 So far little is known about the mechanisms underlying the production and release of these cytokines in neoplastic mast cells in patients with SM. In many instances, activation of KIT and/or the IgE receptor may play a role in cytokine secretion.7,9 Correspondingly, most of these cytokines are measurable in the sera of patients with SM and, in several instances, cytokine levels correlate with the variant of SM and with prognosis.7-12 For example, a clear correlation between the variant of SM and IL-6 levels has been described.11,12 In addition, in SM, elevated IL-6 levels are regarded as an indicator of a poor prognosis.11,12
In this issue of the Journal, Tobío et al. report that the D816V-mutated KIT receptor triggers expression and
release of IL-6 in neoplastic mast cells.15 In particular, they
were able to show that bone marrow mast cells in
+
patients with KIT D816V SM express and release IL-6,
and that the levels of IL-6 in cultured mononuclear cells in these patients correlate with the D816V KIT allele burden and with the percentage of mast cells in these samples.15 In addition, they found that human mast cell lines expressing KIT D816V produce and secrete IL-6. Finally, they deciphered the KIT D816V-dependent signaling machinery that triggers IL-6 production in neoplastic mast cells. It is worth noting that these signaling molecules, like PI3K, AKT, TOR or JAK2-STAT5, represent druggable therapeutic targets.15 An overview of the concept pro- posed by Tobío et al. is shown in Figure 1.
IL-6 is a multi-functional cytokine that plays a role in various biological and pathological processes. In particu- lar, IL-6 has been implicated as a regulator of inflammato- ry reactions, infectious diseases and host defense, stromal reactions, and bone metabolism. In various neoplastic states, elevated levels of IL-6 have been reported, and in most disease models, higher IL-6 levels are associated with a poor prognosis.11,12,16-18 Based on these observations, IL-6 has also been discussed as a new potential therapeu- tic target in chronic inflammatory and neoplastic disor- ders.19
In mastocytosis, IL-6 has been implicated as a potential mediator of mast cell development and activation, accu- mulation and function of lymphocytes, bone marrow remodeling, and bone pathology (ostesclerosis, osteope- nia/osteoporosis). In addition, high IL-6 levels have been implicated as a prognostic parameter in SM.11,12 In this regard, it is noteworthy that IL-6 may also act as an autocrine growth factor for neoplastic mast cells (Figure 1).
The observation by Tobío et al. confirms the impact of IL-6 in SM and suggests that IL-6 production in neoplastic mast cells is triggered by the oncogenic signaling machin- ery activated by KIT D816V (Figure 1).15 This observation may have clinical implications and may lead to the devel- opment of new treatment concepts. For example, high IL- 6 levels may already be detected in indolent SM (ISM) before the disease progresses to ASM or MCL.11,12 In these cases, high IL-6 levels may serve as a biomarker of “high risk ISM” where a closer follow up or early interventional therapy may be considered.
There may be several ways to interfere with KIT D816V-dependent signaling in neoplastic mast cells in SM. One is to apply strong inhibitors of KIT D816V, such as midostaurin or avapritinib.20-23 It will be of great interest to learn whether IL-6 levels decrease during therapy with these KIT-targeting drugs. Another possibility may be to block KIT-downstream signaling molecules involved in IL- 6 production, such as JAK2 or PI3K. Indeed, the data of
haematologica | 2020; 105(1)
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