Immunomodulatory effect of DDT (bis[4-chlorophenyl]-1,1,1-trichloroethane) on complement system and macrophages.

DDT (bis[4-chlorophenyl]-1,1,1-trichloroethane) is responsible for many immuno-dysregulatory functions in exposed animals, but data particularly on complement system and macrophages are limited. In this study we have shown that DDT activates the complement system through the alternative pathway in the absence of any pathogen. A significant (p<0.05) increase in C3b, C3d and C3a generation, and decline in complement hemolytic activity was observed in insecticide exposed sera. The uncontrolled complement consumption reduces the lytic activity of the complement, which enhances the susceptibility to pyogenic infection if the exposure to DDT remains unabated. Further, DDT induced the significant (p<0.05) production of tumor necrosis factor-alpha (TNF-alpha) and nitric oxide (NO) in macrophages and thus contributes inflammatory reactions, cytokine imbalance and immune-dysregulation. These molecular changes in macrophages lead to structural aberrations like heterochromatin condensation, loss of pseudopodia, cytoplasmic vacuolization, DNA fragmentation and hypodiploid nuclei as seen in our study, suggesting apoptosis. However, in presence lipopolysaccharide, DDT induced significant (p<0.05) suppression of TNF-alpha and NO generation, suggestive of impairment of macrophage microbiocidal effects. This study concludes that the functional and structural derangements of macrophages in association with uncontrolled and excessive complement consumption by DDT are perhaps one of the major mechanisms contributing to the immunosuppressive effects of insecticide.

Modulation of CR1 transcript in systemic lupus erythematosus (SLE) by IFN-gamma and immune complex.

Reduced expression of Erythrocyte Complement Receptor 1 (E-CR1) is envisaged to contribute significantly to the pathophysiology of systemic lupus erythematosus (SLE). We determined the levels of CR1 transcript in the neutrophils from 25 untreated patients with active SLE and 25 normal healthy individuals and, studied the effect of interferon-gamma (IFN-gamma), interleukin-4 (IL-4) and immune complexes (IC) on the same. The study revealed a marked decline in the levels of neutrophil CR1 (N-CR1) transcript in the patients with SLE, and differential pattern of IFN-gamma and IL-4 expression in the neutrophils from normals and patients. Opsonized immune complexes down regulated CR1 transcript in patients and IFN-gamma up regulated the same both in normals and patients. Immune complexes suppressed this effect of IFN-gamma. IL-4 also suppressed the effect of IFN-gamma but effect confined only to the normals. This is the first real-time RT-PCR data comparing the neutrophil CR1 expression in normals and patients with SLE and its modulation by IFN-gamma, IL-4 and immune complexes. IFN-gamma and immune complexes, respectively, emerged as the positive and negative modulators of neutrophil CR1 transcript in SLE.

Identification and functional characterization of a novel unspliced transcript variant of HIC-1 in human cancer cells exposed to adverse growth conditions.

The wild-type p53 gene has been widely implicated in the regulation of hypermethylated in cancer-1 (HIC-1) transcription, a master growth regulatory gene with multiple promoters and, consequently, multiple alternatively spliced transcripts. We investigated the role of p53 (wild type and mutant, both endogenous and exogenous) in modulating the various HIC-1 transcripts. We discovered a novel unspliced HIC-1 transcript, identified as "f" in leukocytes and in the human cell lines U87MG (wild-type p53), U373MG (mutant p53), MCF-7 (wild-type p53), HeLa (p53 degraded by HPV18-E6 oncoprotein), and Saos-2 (p53 null). This transcript is initiated from a new transcription start site and has an intervening stop codon that would result in a possibly truncated 22-amino-acid polypeptide. When U87MG (wild-type p53) and MCF-7 cells (wild-type p53) were exposed to adverse growth conditions of serum starvation or treated with the chemotherapeutic agent cisplatin, cells underwent apoptosis and cell cycle arrest accompanied by increase in p53 and HIC-1 transcript levels. Although the increase of the HIC-1-spliced transcripts followed the increase of p53, increase in f transcript coincided with declining p53 and HIC-1 transcript and protein levels. Moreover, the levels of HIC-1 f transcript were not induced by exogenously transfected wild-type p53 in p53-mutated U373MG and p53-null Saos-2 cells, unlike the spliced transcripts that code for full-length HIC-1 protein. These findings suggest a working model wherein the status of f transcript, which is not under direct transcriptional control of wild-type p53, may influence the level of HIC-1 protein in cancer cells.