Immune-Complexed Adenovirus Induce AIM2-Mediated Pyroptosis in Human Dendritic Cells.

Human adenoviruses (HAdVs) are nonenveloped proteinaceous particles containing a linear double-stranded DNA genome. HAdVs cause a spectrum of pathologies in all populations regardless of health standards. Following repeat exposure to multiple HAdV types, we develop robust and long-lived humoral and cellular immune responses that provide life-long protection from de novo infections and persistent HAdV.

A Siglec-like sialic-acid-binding motif revealed in an adenovirus capsid protein.

Sialic-acid-binding immunoglobulin-like lectins (Siglecs) are a family of transmembrane receptors that are well documented to play roles in regulation of innate and adaptive immune responses. To see whether the features that define the molecular recognition of sialic acid were found in other sialic-acid-binding proteins, we analyzed 127 structures with bound sialic acids found in the Protein Data Bank database. Of these, the canine adenovirus 2-fiber knob protein showed close local structural relationship to Siglecs despite low sequence similarity.

An update on canine adenovirus type 2 and its vectors.

Adenovirus vectors have significant potential for long- or short-term gene transfer. Preclinical and clinical studies using human derived adenoviruses (HAd) have demonstrated the feasibility of flexible hybrid vector designs, robust expression and induction of protective immunity. However, clinical use of HAd vectors can, under some conditions, be limited by pre-existing vector immunity.

Human mesenchymal stem cells reprogram adult cardiomyocytes toward a progenitor-like state through partial cell fusion and mitochondria transfer.

Because stem cells are often found to improve repair tissue including heart without evidence of engraftment or differentiation, mechanisms underlying wound healing are still elusive. Several studies have reported that stem cells can fuse with cardiomyocytes either by permanent or partial cell fusion processes. However, the respective physiological impact of these two processes remains unknown in part because of the lack of knowledge of the resulting hybrid cells.

Rapid induction of pluripotency genes after exposure of human somatic cells to mouse ES cell extracts.

The expression of 4 pluripotency genes (Oct4, Sox2, c-Myc and Klf4) in mouse embryonic fibroblasts can reprogramme them to a pluripotent state. We have investigated the expression of these pluripotency genes when human somatic 293T cells are permeabilized and incubated in extracts of mouse embryonic stem (ES) cells. Expression of all 4 genes was induced over 1-8 h.

Using RT-prone recombination to promote re-building of complete retroviral vectors from two defective precursors: low efficiency and sequence specificities.

Retroviral recombination has been suggested as a useful way to modify retroviral vectors. The possibility to combine two multiply deleted retroviral vectors into a novel vector was evaluated. To investigate this possibility we have constructed two defective vectors containing a shared internal ribosome entry site (IRES).

Mobilization of full-length Semliki Forest virus replicon by retrovirus particles.

Conciliating biosafety with efficient gene transfer remains a constant concern in the development of retroviral vectors. Semliki Forest virus (SFV) replicons allow important retroviral vector production with interesting features. It is noteworthy that retroviruses have the ability to package Psi+ and, to some extent, Psi- cellular RNAs.

Vesicular stomatitis virus glycoprotein: a transducing coat for SFV-based RNA vectors.

Background: Semliki Forest virus (SFV) vectors have a great potential for the induction of protective immunity in a large number of clinical conditions including cancer. Such a potential accounts for the huge efforts made to improve the in vivo expression from SFV vectors. It is noteworthy that efficient in vivo expression strongly relies on the ability to deliver high-titre vectors.

Toolbox for retrovectorologists.

Retroviral vectors have actively contributed to the advent of gene therapy as a realistic approach in human therapeutics. At the beginning, the use of retroviral vectors was thought to be as simple as the collection of a viral supernatant that was applied to the desired cell. Rapidly, target resistance to transduction appeared in various conditions, ex vivo as well as in vivo.