25 research outputs found
Interactions between rnacrophage cytokines and eicosanoids in expression of antitumour activity
Cytokines and eicosanoid products of macrophages play an essential role in expression of antitumour activity of macrophages either in a cell-to-cell contact system between the effector and the target cell or as cell-free soluble products. In this review the relationship between three main monokines, namely TNF-α, IL-1 and IL-6 and the interrelationship between these monokines and eicosanoids (PGE2, PGI2, LTB4, LTC4) in their production and in expression of antitumour activity is discussed. Emphasis is given to the effect of tumour burden on production of the monokines and of the eicosanoids and on the production of these compounds by the tumour cells. Finally, the therapeutic implications drawn from animal studies and clinical trials is discussed
Differential Proliferative Characteristics of Alveolar Fibroblasts in Interstitial Lung Diseases: Regulative Role of IL-1 and PGE2
Fibroblasts (Fb) from patients with sarcoidosis (SA) and
hypersensitivity pneumonitis (HP) exhibited a lower proliferative
capacity compared with Fb obtained from control (CO) and diffuse
interstitial fibrosis patients (DIF). Proliferation of Fb from SA or
lip patients was suppressed by autologous LPS-stimulated alveolar
macrophages (AM) supernatants but not by those from CO patients.
Similarly, alveolar macrophages (AM) derived supernatant, obtained
from CO, did not suppress the proliferation of SA and HP Fb. AM from
SA and HP patients secreted higher amounts of IL-1α and β
compared with controls and compared with Fb from SA and HP patients.
Steady levels of IL-1α and βmRNA were expressed in
unstimulated and stimulated cultures. Fb from SA and HP patients
could be stimulated by LPS to secrete significantly higher levels of
PGE2 than those detected in supernatants from LPS
stimulated Fb of DIF patients. Only the proliferation of Fb from SA
and HP patients was sensitive to amounts of IL-1 equivalent to those
detected in the lung of these diseases. As SA and HP are two
diseases where irreversible deterioration occurs in only 20%
of the patients, we hypothesize that mediators in the lung may
modulate Fb proliferation. IL-1 of AM origin and PGE2 of
Fb origin secreted at high levels, may be candidates for this
suppression because it was abrogated by anti IL-1β and indomethacin