Claudins are a family of proteins involved in forming tight junctions between cells. Here we describe two forms of claudin-7 (CLDN-7), a full-length form of CLDN-7 with 211 amino-acid residues and a C-terminal truncated form with 158 amino-acid residues. These two forms of CLDN-7 are able to regulate the expression of a tissue-specific protein, the prostate-specific antigen (PSA), in the LNCaP prostate cancer cell line. We also found that the expression of CLDN-7 is responsive to androgen stimulation in the LNCaP cell line, suggesting that this protein is involved in the regulatory mechanism of androgen. Both forms of claudin-7 are expressed in human prostate, kidney and lung samples, and in most samples, the full-length form of claudin-7 was predominant. However, in some prostate samples from healthy individuals, the truncated form of claudin-7 is predominantly expressed. Our results demonstrated that unlike other claudins, CLDN-7 has both structural and regulatory functions, and the two forms of CLDN-7 may be related to cell differentiation in organ development.
Infection of CD4- cells by HIV-1 is well documented, but the mechanism responsible remains a matter of discussion. Previously we modified an HIV-1 virus strain, NL4-3, by deleting the Env proteins (gp41 and gp120) and inserting the enhanced green fluorescent protein (EGFP), and found that the Env(-) virus infects several types of CD4- cells. Here, we have prepared Env(-) virus from both the CD4- cell line, 293T, and the CD4+ cell lines, CEM and SUPT1, and found that HIV-1 Env(-) virus from either cell type is infectious for both CD4+ and several CD4- cell lines. Replication of HIV-1 Env(-) virus-infected cells was demonstrated by p24 gag protein assays and real-time reverse transcriptase polymerase chain reaction (RT-PCR) of the culture medium from infected cells. Virus collected from the HIV-1-Env(-) infected cultures proved infectious to several CD4- cell lines. Our results suggest that HIV-1 infects both CD4- and CD4+ cells using a gp120-independent mechanism. This infection mechanism may provide new explanations for HIV-1 latency and persistent infection in patients.
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