Aredia salazar biography sample

  • In this study, samples were selected from the mandible.
  • The aim of the current research work was to develop sonophoresis-assisted transdermal patches for the treatment of osteoporosis.
  • Here, we discuss the concepts of the bone metastasis niche, from controlling tumor-cell survival to growth into clinically detectable disease.

    • WO2012158960A2 - Melanocortin 1 organ ligands prosperous methods close use - Google Patents

    Melanocortin 1 organ ligands significant methods friendly use Download PDF

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    Publication number
    WO2012158960A2
    WO2012158960A2PCT/US2012/038425US2012038425WWO2012158960A2WO 2012158960 A2WO2012158960 A2WO 2012158960A2US 2012038425 WUS2012038425 WUS 2012038425WWO 2012158960 A2WO2012158960 A2WO 2012158960A2
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    WIPO (PCT)
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    mcir
    peptide ligand
    agent
    ligand
    micelle
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    PCT/US2012/038425
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    French (fr)
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    WO2012158960A3 (en
    Inventor
    Robert J. Gillies
    David L. Morse
    Natalie M. BARKEY
    Kevin N. Sill
    Josef Vagner
    Narges K. Tafreshi
    Jonathan L. Sessler
    Christian PREIHS
    Original Assignee
    H. Revel in Moffitt Person Center & Research Alliance, Inc.
    Intezyne Technologies Inc.
    Arizona Scantling Of Regents On Behalf Of Say publicly University Allude to Arizona
    Board Have fun Regents, Further education college Of Texas System
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    Application filed by H. Lee Moffitt Cancer Center & Inquiry Institute, Inc., Intezyne Technologie
  • aredia salazar biography sample

    • Abstract

    Bone metastasis, or the development of secondary tumors within the bone of cancer patients, is a debilitating and incurable disease. Despite its morbidity, the biology of bone metastasis represents one of the most complex and intriguing of all oncogenic processes. This complexity derives from the intricately organized bone microenvironment in which the various stages of hematopoiesis, osteogenesis, and osteolysis are jointly regulated but spatially restricted. Disseminated tumor cells (DTCs) from various common malignancies such as breast, prostate, lung, and kidney cancers or myeloma are uniquely primed to subvert these endogenous bone stromal elements to grow into pathological osteolytic or osteoblastic lesions. This colonization process can be separated into three key steps: seeding, dormancy, and outgrowth. Targeting the processes of dormancy and initial outgrowth offers the most therapeutic promise. Here, we discuss the concepts of the bone metastasis niche, from controlling tumor-cell survival to growth into clinically detectable disease.

    The most immediate and pressing concern on receiving a cancer diagnosis is to determine the extent to which it has spread—a process known as cancer metastasis. Metastasis to any organ presents a life-threatening and often in

    Abstract

    Bone metastasis is an incurable complication of breast cancer. In advanced stages, patients with estrogen-positive tumors experience a significantly higher incidence of bone metastasis (>87%) compared to estrogen-negative patients (<56%). To understand the mechanism of this bone-tropism of ER+ tumor, and to identify liquid biopsy biomarkers for patients with high risk of bone metastasis, the secreted extracellular vesicles and cytokines from bone-tropic breast cancer cells are examined in this study. Both exosomal miR-19a and Integrin-Binding Sialoprotein (IBSP) are found to be significantly upregulated and secreted from bone-tropic ER+ breast cancer cells, increasing their levels in the circulation of patients. IBSP is found to attract osteoclast cells and create an osteoclast-enriched environment in the bone, assisting the delivery of exosomal miR-19a to osteoclast to induce osteoclastogenesis. Our findings reveal a mechanism by which ER+ breast cancer cells create a microenvironment favorable for colonization in the bone. These two secreted factors can also serve as effective biomarkers for ER+ breast cancer to predict their risks of bone metastasis. Furthermore, our screening of a natural compound library identifies chlorogenic acid as a potent inhi