The Arabidopsis plastid-signalling mutant gun1 (genomes uncoupled1) shows altered sensitivity to sucrose and abscisic acid and alterations in early seedling development

Developing seedlings of the Arabidopsis gun1 (genomes uncoupled1) mutant, which is defective in retrograde plastid-to-nucleus signalling, show several previously unrecognized mutant phenotypes. gun1 seedlings accumulated less anthocyanin than wild-type seedlings when grown in the presence of 2% (w/v) sucrose, due to lower amounts of transcripts of early anthocyanin biosynthesis genes in gun1. Norflurazon and lincomycin, which induce retrograde signalling, further decreased the anthocyanin content of sucrose-treated seedlings, and altered the temporal pattern of anthocyanin accumulation. Lincomycin treatment altered the spatial pattern of sucrose-induced anthocyanin accumulation, suggesting that plastids provide information for the regulation of anthocyanin biosynthesis in Arabidopsis seedlings. The temporal pattern of accumulation of LHCB1 transcripts differed between wild-type and gun1 seedlings, and gun1 seedlings were more sensitive to sucrose suppression of LHCB1 transcript accumulation than wild-type seedlings. Growth and development of gun1 seedlings was more sensitive to exogenous 2% sucrose than wild-type seedlings and, in the presence of lincomycin, cotyledon expansion was enhanced in gun1 seedlings compared to the wild type. gun1 seedlings were more sensitive than wild-type seedlings to the inhibition of seedling growth and development by abscisic acid. These observations clearly implicate GUN1 and plastid signalling in the regulation of seedling development and anthocyanin biosynthesis, and indicate a complex interplay between sucrose and plastid signalling pathways

First description of feline inflammatory mammary carcinoma: clinicopathological and immunohistochemical characteristics of three cases

INTRODUCTION: Inflammatory breast cancer is a special type of locally advanced mammary cancer that is associated with particularly aggressive behaviour and poor prognosis. The dog was considered the only natural model in which to study the disease because, until now, it was the only species known to present with inflammatory mammary carcinoma (IMC) spontaneously. In the present study we describe clinicopathological and immunohistochemical findings of three cats with IMC, in order to evaluate its possible value as an animal model. METHODS: We prospectively studied three female cats with clinical symptoms of IMC, identified over a period of 3 years. Clinicopathological and immunohistochemical evaluations of Ki-67, and oestrogen, progesterone and androgen receptors were performed. RESULTS: All three animals presented with secondary IMC (postsurgical) characterized by a rapid onset of erythema, severe oedema, extreme local pain and firmness, absence of subjacent mammary nodules, and involvement of extremities. Rejection of the surgical suture was observed in two of the cats. Histologically, highly malignant papillary mammary carcinomas, dermal tumour embolization of superficial lymphatic vessels, and severe secondary inflammation were observed. The animals were put to sleep at 10, 15 and 45 days after diagnosis. Metastases were detected in regional lymph nodes and lungs in the two animals that were necropsied. All tumours had a high Ki-67 proliferation index and were positive for oestrogen, progesterone and androgen receptors. CONCLUSION: Our findings in feline IMC (very low prevalence, only secondary IMC, frequent association of inflammatory reaction with surgical suture rejection, steroid receptor positivity) indicate that feline IMC could be useful as an animal model of human inflammatory breast cancer, although the data should be considered with caution

Identification of enhancer elements in the upstream region of the nuclear photosynthetic gene ST-LS1.

The nuclear gene ST-LS1 from potato encodes a 10-kilodalton protein that is a component of the oxygen-evolving complex of photosystem II. Analysis of the expression of a reporter gene driven by chimeric promoters, consisting of ST-LS1 upstream sequences and a truncated cauliflower mosaic virus 35S promoter, suggests that a strong positive regulatory element is located between position -345 and -261, whereas both the region -261 to +11 and the more upstream region -1600 to -530 are devoid of autonomous strong positive elements detectable by this approach. The ST-LS1 upstream region contains redundant elements conferring light-regulated and organ-specific expression, one of them being located between position -130 and +11. In addition, enhancer-like sequences conferring light-regulated as well as organ-specific expression to heterologous promoters were identified. These sequences are functional not only when located 5'-upstream of the coding region but also when placed 3'-downstream of the polyadenylation signal, thus representing one of the first examples of a plant gene-derived enhancer being able to induce a truncated heterologous promoter from a position 3'-downstream of the transcription unit

Correlation of the expression of the nuclear photosynthetic gene ST-LS1 with the presence of chloroplasts.

A detailed analysis of the expression of a chimeric gene, consisting of the upstream region of the nuclear photosynthetic gene ST-LS1, encoding a component of the water-oxidizing complex of photosystem II, fused to the coding sequence of beta-glucuronidase (GUS) as a reporter, is described. The expression of this chimeric gene at the cellular level was detected by histochemical methods and shows that the expression of this gene is correlated with the presence of chloroplasts. Interestingly, the GUS activity was not only detected in typical photosynthetic tissues, e.g. leaves and stems, but also in green roots containing chloroplasts. In contrast no activity was detected in neighbouring white root tissue which was devoid of chloroplasts. One can therefore separate the relative importance of the (morphological) differentiation steps responsible for the formation of tissues normally involved in photosynthesis, from the importance of the developmental stage (characterized by the presence of chloroplasts), for the expression of this nuclear photosynthetic gene. Our data strongly suggest that the developmental stage of the plastids is the primary determinant for the activity of this nuclear photosynthetic gene, although they do not yet allow the exclusion of the reverse type of control, i.e. control of the differentiation of the plastid by the expression of certain nuclear genes. A chimeric gene, consisting of the promoter of the 35S cauliflower mosaic virus (CaMV) gene and the GUS coding sequence, was used as a control throughout the experiments, confirming that the observed differential ST-LS1-GUS gene expression reflects the particular transcriptional regulation impacted on this gene by its cis-acting regulatory sequences

Organ-Specific and Dosage-Dependent Expression of a Leaf Stem Specific Gene from Potato after Tagging and Transfer into Potato and Tobacco Plants

ST-LS1, a single copy gene from potato displaying a leaf/stem specific gene expression, was tagged by an exon modification and introduced into both potato and tobacco cells using Agrobacterium vectors. After regeneration of whole plants, the expression of the tagged gene was analyzed with respect to its organ specificity and compared to the expression of the corresponding resident gene. The expression of the transferred gene in transgenic plants closely followed the expression of the resident gene. No marked influence of the plant species serving as host was observed. The level of expression of the introduced gene varied by a factor of at least 100 in independent transformants when normalized to the expression of the resident gene. Southern analysis performed on the transformed plants indicated a correlation between copy number of the introduced gene and its expression level. The activity of the tagged gene as well as of the resident gene was significantly inhibited by treatment of the transgenic plants with the herbicide norfluorazon, indicating that this gene activity is dependent on the presence of functional chloroplasts in the leaves