Ewing's sarcoma and Desmoplastic small round cell tumor (DSRCT) patients whose tumors were analyzed for somatic aberrations.

<p>Ewing's sarcoma and Desmoplastic small round cell tumor (DSRCT) patients whose tumors were analyzed for somatic aberrations.</p

Schematic figure of the IGF1R pathway, regulation of STAT3 phosphorylation and negative feedback of Grb10.

<p>IGF1R is one of the regulators for STAT3 phosphorylation while PTPRD dephosphorylates STAT3. STAT3 is recruited to IGF1R for phosphorylation. IGF1R is modulated by several downstream cascades, including PI3K, AKT and mTOR. mTOR phosphorylates Grb10, which in turn inhibits the IGF1R pathway.</p

Characteristics of Ewing's sarcoma and DSRCT patients with somatic mutations.

<p>* Patient numbers according to <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0093676#pone-0093676-t001" target="_blank">Table 1</a>.</p><p>Abbreviations: CR- Complete remission, PR- Partial remission,N/A-Not applicable.</p

Immunohistochemistry based morphoproteomics of Ewing's sarcoma sample that showed KRAS mutation post IGF1R therapy (Patient 1).

<p>The Ras/Raf kinase/extracellular signal-regulated kinase (ERK) pathway was constitutively activated with chromogenic signal observed, up to 3+ in nucleus and ± in the cytoplasm, for p-ERK 1/2 (Thr 202/Tyr 204) (left hand panel) with the overnight negative control (Right hand panel).</p

KIT activation & up-regulation, concomitant parallel induction of ET3, KIT⁺Melan-A^–- progenitor cells, and melanocyte regeneration in proportion to sun-exposure.

<p>(<b><i>A</i></b>), IHC of KIT and ET3 on serial sections of human skin specimen obtained from a lower extremity-amputation. Sole represents active suppression of melanogenesis (<i>a</i> and <i>d</i>), dorsum of big toe represents intermediate sun-exposure (<i>b</i> and <i>e</i>), and lateral lower leg represents heavy sun-exposure (<i>c</i> and <i>f</i>). (<b><i>B</i></b>), IHC of KIT, Melan-A, and ET3 on serial sections of human skin punch biopsy specimens obtained from sun-protected axilla (<i>g</i>, <i>i</i>, <i>k</i>) and chronic heavy sun-exposed forearm (<i>h</i>, <i>j</i>, <i>l</i>) from the same individual. Lymphocytes serve as internal negative control for KIT, ET3 and Melan-A; mast cells serve as internal positive control for KIT. Together, these images demonstrate that human skin exhibits sun-exposure-dependent up-regulation of KIT (<i>a-c</i>) and concomitant parallel sun-exposure-induced increasing induction of ET3 (<i>d-f</i>). Chronic sun-exposure induces intense dendritic pattern of KIT expression as well as a large increase in the number of KIT-expressing-cells in the basal layer (<i>h</i>) consisting of KIT⁺Melan-A⁺ mature melanocytes (<i>j</i>) and KIT⁺Melan-A^–melanocyte progenitor cells as evidenced by the difference between (<i>h</i>) and (<i>j</i>).</p

Autophosphorylation, internalization, and nuclear localization of activated KIT with tyrosine phosphorylation at 568/570 (pY568/pY570KIT).

<p>(<b><i>A</i></b>), IHC of frozen sections of an aggressive GIST (<i>a-c</i>) and a normal human adult testis as external control (<i>d-f</i>) using pan-KIT antibody (<i>a</i> and <i>d</i>), pY568/pY570KIT antibody (b and <i>e</i>, red arrow indicates nuclear localization), and pY703KIT antibody (<i>c</i> and <i>f</i>) respectively. (<b><i>B</i></b>), <i>In situ</i> IHC to assess kinetics of SCF-induced nuclear translocation of pY568/pY570KIT using WM793 melanoma cells cultured in 4-well chamber tissue culture treated glass slides. Control (<i>g)</i> without SCF stimulation, after addition of SCF to culture media, the nuclear localization of pY568/pY570KIT increases progressively (<i>h-j</i>) in more than 90% of WM793 cells, reaches a plateau about 40–60 minutes (<i>i</i> and <i>j</i>), begins to decrease at 90 minutes (<i>k</i>), and is completely absent in nucleus with relocation back to the cytoplasm at 4 hours, some residual cytoplasmic staining remains visible (<i>l</i>).</p

Microarray analysis comparing a highly aggressive GIST with an indolent GIST: A selective list of target genes whose expression was up- or down-regulated by KIT signaling.

<p>Microarray analysis comparing a highly aggressive GIST with an indolent GIST: A selective list of target genes whose expression was up- or down-regulated by KIT signaling.</p

Immunohistochemical studies on human colon myenteric plexus demonstrate that 48 hours fasting results in activation of SCF-KIT signaling and concomitant parallel induction of endothelin-3.

<p>Human colon specimens post 48 hours fasting demonstrate intense KIT staining in ICCs within the myenteric plexus (<i>a</i>), and intense ET3 staining within the myenteric plexus (<i>b</i>). In sharp contrast, the surrounding longitudinal and circular smooth muscle cells (SM) show negative ET3 staining.</p