Quality of CD8+ T cell immunity evoked in lymph nodes is compartmentalized by route of antigen transport and functional in tumor context.

Revealing the mechanisms that underlie the expansion of antitumor CD8+ T cells that are associated with improved clinical outcomes is critical to improving immunotherapeutic management of melanoma. How the lymphatic system, which orchestrates the complex sensing of antigen by lymphocytes to mount an adaptive immune response, facilitates this response in the context of malignancy is incompletely understood. To delineate the effects of lymphatic transport and tumor-induced lymphatic and lymph node (LN) remodeling on the elicitation of CD8+ T cell immunity within LNs, we designed a suite of nanoscale biomaterial tools enabling the quantification of antigen access and presentation within the LN and resulting influence on T cell functions. The expansion of antigen-specific stem-like and cytotoxic CD8+ T cell pools was revealed to be sensitive to the mechanism of lymphatic transport to LNs, demonstrating the potential for nanoengineering strategies targeting LNs to optimize cancer immunotherapy in eliciting antitumor CD8+ T cell immunity.

Identification and biochemical characterization of the novel mutation m.8839G>C in the mitochondrial ATP6 gene associated with NARP syndrome.

Mutations in the ATP6 gene are reported to be associated with Leber hereditary optic neuropathy, bilateral striatal necrosis, coronary atherosclerosis risk and neuropathy, ataxia and retinitis pigmentosa (NARP)/maternally inherited Leigh syndromes. Here, we present a patient with NARP syndrome, in whom a previously undescribed mutation was detected in the ATP6 gene: m.8839G>C. Several observations support the concept that m.8839G>C is pathogenically involved in the clinical phenotype of this patient: (1) the mutation was heteroplasmic in muscle; (2) mutation load was higher in the symptomatic patient than in the asymptomatic carriers; (3) cybrids carrying this mutation presented lower cell proliferation, increased mitochondrial DNA (mtDNA) copy number, increased steady-state OxPhos protein levels and decreased mitochondrial membrane potential with respect to isogenic wild-type cybrids; (4) this change was not observed in 2959 human mtDNAs from different mitochondrial haplogroups; (5) the affected amino acid was conserved in all the ATP6 sequences analyzed; and (6) using in silico prediction, the mutation was classified as 'probably damaging'. However, measurement of ATP synthesis showed no differences between wild-type and mutated cybrids. Thus, we suggest that m.8839G>C may lower the efficiency between proton translocation within F0 and F1 rotation, required for ATP synthesis. Further experiments are needed to fully characterize the molecular mechanisms involved in m.8839G>C pathogenicity.

Identification of androgen-regulated genes in mouse kidney by representational difference analysis and random arbitrarily primed polymerase chain reaction.

The molecular nature of tissue-specific gene regulation by androgens has not been well defined, partly as a result of the variable expression and incomplete regulation of currently available gene models. We have therefore aimed to establish more informative models by identifying alternative genes whose expression is tightly and coordinately regulated by androgens. Female C57BL/6 mice were dosed with dihydrotestosterone- or sham-treated for 8 days, after which kidneys were removed and complementary DNA (cDNA) prepared. We then applied the subtractive hybridization techniques of random arbitrarily primed-PCR and PCR-coupled subtractive hybridization method of cDNA representational difference analysis to the isolated cDNA. In addition to well characterized androgen-regulated genes [e.g. KAP (kidney androgen-regulated protein)], we demonstrate the differential expression of six genes previously not known to be under androgen control. RNA levels of SA, Cytochrome P450 4B1, IL-6ST (interleukin-6 signal transducer), OATP (organic anion transporter), and a newly identified gene, MJAM, were up-regulated by androgen, while 16-alpha-hydroxylase was decreased. Expression of these transcripts was inhibited in dihydrotestosterone-treated females by flutamide and in males by castration, confirming their dependence on androgens. Although all the genes demonstrate tissue-specific regulation by androgen, SA showed both kidney specificity and absolute requirement for androgen for its expression. These newly identified androgen-regulated genes will constitute very useful models for studying the nature of tissue-specific gene regulation by androgens.