The ability of heat-killed Mycobacterium vaccae to stimulate a cytotoxic T-cell response to an unrelated protein is associated with a 65 kilodalton heat-shock protein.

Exogenous antigens are generally presented by Class II major histocompatibility (MHC) molecules. When administered with an adjuvant, however, they are capable of inducing a CD8+ T-cell response where antigen recognition is associated with Class I MHC. Accordingly, immunization with soluble ovalbumin (OVA) alone does not activate CD8+ cytotoxic T cells (CTL) but when given in complete Freund's adjuvant (CFA), or in formulations of a number of novel adjuvants, an OVA-specific CD8+ CTL response can be detected. We show in this report that immunization with soluble OVA mixed with heat-killed Mycobacterium vaccae, but not with other common pathogenic and saprophytic mycobacteria, can activate OVA-specific CD8+ CTL. An OVA-specific CTL response is detected when mice are immunized by either the intraperitoneal or intranasal route and their spleen cells are re-stimulated in vitro. Adjuvant activity of heat-killed M. vaccae is present in M. vaccae culture filtrate, in soluble protein components of whole M. vaccae and in the 65 kDa heat-shock protein (hsp) of M. vaccae. Mycobacterium vaccae has previously been shown to have no adverse side-effects in humans. The current results suggest that M. vaccae may be useful as an adjuvant for vaccines and other immunotherapies where CD8+ CTL responses to exogenous proteins are crucial.

S RNase and Interspecific Pollen Rejection in the Genus Nicotiana: Multiple Pollen-Rejection Pathways Contribute to Unilateral Incompatibility between Self-Incompatible and Self-Compatible Species.

In self-incompatible (SI) plants, the S locus acts to prevent growth of self-pollen and thus promotes outcrossing within the species. Interspecific crosses between SI and self-compatible (SC) species often show unilateral incompatibility that follows the SI x SC rule: SI species reject pollen from SC species, but the reciprocal crosses are usually compatible. The general validity of the SI x SC rule suggests a link between SI and interspecific pollen rejection; however, this link has been questioned because of a number of exceptions to the rule. To clarify the role of the S locus in interspecific pollen rejection, we transformed several Nicotiana species and hybrids with genes encoding SA2 or SC10 RNase from SI N. alata. Compatibility phenotypes in the transgenic plants were tested using pollen from three SC species showing unilateral incompatibility with N. alata. S RNase was implicated in rejecting pollen from all three species. Rejection of N. plumbaginifolia pollen was similar to S allele-specific pollen rejection, showing a requirement for both S RNase and other genetic factors from N. alata. In contrast, S RNase-dependent rejection of N. glutinosa and N. tabacum pollen proceeded without these additional factors. N. alata also rejects pollen from the latter two species through an S RNase-independent mechanism. Our results implicate the S locus in all three systems, but it is clear that multiple mechanisms contribute to interspecific pollen rejection.

The soybean SAUR open reading frame contains a cis element responsible for cycloheximide-induced mRNA accumulation.

Little is known about how mRNA stability is regulated in higher plants. The SAURs (Small Auxin-Up RNAs) are a family of highly unstable mRNAs in soybean that rapidly increase in abundance after excised organs are treated with the plant hormone auxin. The SAURs are also induced by protein synthesis inhibitors, including cycloheximide, in the absence of auxin treatment and are superinduced when organs are treated with cycloheximide plus auxin. While the induction of SAURs is transcriptionally regulated by auxin, the induction by cycloheximide is posttranscriptional. Cycloheximide as well as other protein synthesis inhibitors appear to induce SAUR accumulation by increasing the stabilities of these mRNAs. To determine whether the 5'-untranslated region, the 3'-untranslated region, or the open reading frame of these unstable mRNAs is responsible for the cycloheximide inducibility, we have used chimeric genes in transgenic tobacco plants to test each of these mRNA regions. Our results show that the SAUR open reading frame within a chimeric mRNA confers cycloheximide inducibility in transgenic tobacco plants whereas chimeric mRNAs containing the SAUR 5'-untranslated region or 3'-untranslated region as isolated elements or in combination are not induced by cycloheximide. These results suggest that the SAUR open reading frame contains sequence elements that are involved in the stability of these mRNAs.

Levels and location of expression of the Agrobacterium tumefaciens pTiA6 ipt gene promoter in transgenic tobacco.

The location of gene expression of the Agrobacterium tumefaciens ipt gene promoter in transgenic tobacco plants was examined using the beta-glucuronidase (GUS) reporter gene. Expression of GUS was detected in every organ and most cell types examined. The highest levels of GUS activity were found in roots. To further examine the transcriptional basis of this broad expression pattern, deletions in the 5' non-coding region of the gene were translationally fused to two promoterless reporter genes, encoding the enzymes chloramphenicol acetyl transferase (CAT) and beta-glucuronidase (GUS). Reporter enzyme assays revealed the existence of an upstream segment required for maximal promoter function, the 5' end of which is between -442 and -408 of the Pipt ATG codon. This upstream segment is required for maximal levels of GUS expression in roots, but not in other organs, and a tobacco suspension-cultured cell line. The implications of broad ipt expression on the process of crown gall tumorigenesis are discussed.

Isolation and characterization of an ipt gene from the Ti plasmid Bo542.

A 1.9 kb clone of the T-DNA region of the Agrobacterium tumefaciens Ti plasmid Bo542 which exhibited homology to the isopentenyl transferase (ipt) locus of pTiA6 was identified by low stringency DNA hybridization. Introduction of this segment of pTiBo542 DNA into cells of Nicotiana tabacum or N. glauca caused tumor formation in vivo, and allowed hormone independent growth in vitro. Furthermore, this DNA segment complemented ipt mutant strains of A. tumefaciens, restoring their ability to cause tumors on Kalanchöe leaves and tomato stems. The complete DNA sequence of this segment has been determined, revealing an open reading frame homologous to other known Agrobacterium ipt genes.