Fernando E. Serrano scite author profile

Infiltrating T lymphocytes are found in many malignancies, but they appear to be mostly anergic and do not attack the tumor, presumably because of defective T-cell activation events. Recently, we described a strategy for the tumor-specific polyclonal activation of tumor-resident T lymphocytes based on the in situ production of recombinant bispecific antibodies (bsAbs) by transfected nonhematological cell lines. Here, we have constructed a novel HIV-1-based lentiviral vector for efficient gene transduction into various human hematopoietic cell types. Several myelomonocytic and lymphocytic cell lines secreted the anticarcinoembryonic antigen (CEA) Â anti-CD3 diabody in a functionally active form with CD3 þ T-cell lines being the most efficient secretors. Furthermore, primary human peripheral blood lymphocytes (PBLs) were also efficiently transduced and secreted high levels of functional diabody. Importantly gene-modified PBLs significantly reduced in vivo tumor growth rates in xenograft studies. These results demonstrate, for the first time, the utility of lentiviral vectors for sustained expression of recombinant bsAbs in human T lymphocytes. Such T lymphocytes, transduced ex vivo to secrete the activating diabody in autocrine fashion, may provide a promising route for a gene therapy strategy for solid human tumors.

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A Preclinical Model for the Analysis of Genetically Modified Human SkinIn Vivo

Río

Larcher

Serrano

et al. 2002

Human Gene Therapy

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Although skin is perhaps the most accessible of all somatic tissues for therapeutic gene transfer, it is a challenging site when attempting gene delivery. In addition to the transience of gene expression, important obstacles to cutaneous gene therapy have included the inability to sustain gene expression in a large proportion of keratinocytes within a given skin compartment. In this study, we have developed a novel experimental strategy that allows long-term regeneration of entirely genetically engineered human skin on the backs of NOD/SCID mice. Primary human keratinocytes were infected with a retroviral vector encoding the enhanced green fluorescent protein (EGFP) produced by transient transfection of 293T cells. EGFP expression allowed cell-sorting selection of a polyclonal population of productively transduced keratinocytes that were assembled in a live fibroblast-containing fibrin dermal matrix and orthotopically grafted onto mice. Epifluorescent illumination of the transplanted zone allowed in vivo monitoring of the genetically modified graft. EGFP-positive human skin was present on mice for 22 weeks after grafting. In addition, frozen sections prepared from the grafts displayed consistently strong EGFP-based fluorescence in all epidermal strata at every time point examined. Persistence of transgene expression was further confirmed through EGFP protein immunodetection. Purified EGFP-positive keratinocytes grafted as part of the fibrin-based artificial skin were capable of generating multilayer human epidermis on mice, with well-developed granulosum and corneum strata, and clearly defined rete ridges. Finally, the large proportion of transduced keratinocytes in our grafts allowed us to study, for the first time, the long-term in vivo clonal reconstitution pattern of the regenerated skin. Analysis of the provirus insertion sites indicates that a discrete number of epidermal stem cell clones was responsible for the maintenance of human skin regenerated in NOD/SCID recipients.

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A cutaneous gene therapy approach to human leptin deficiencies: correction of the murine ob/ob phenotype using leptin‐targeted keratinocyte grafts

et al. 2001

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Leptin deficiency produces a phenotype of obesity, diabetes, and infertility in the ob/ob mouse. In humans, leptin deficiency occurs in some cases of congenital obesity and in lipodystrophic disorders characterized by reduced adipose tissue and insulin resistance. Cutaneous gene therapy is considered an attractive potential method to correct circulating protein deficiencies, since gene-transferred human keratinocytes can produce and secrete gene products with systemic action. However, no studies showing correction of a systemic defect have been reported. We report the successful correction of leptin deficiency using cutaneous gene therapy in the ob/ob mouse model. As a feasibility approach, skin explants from transgenic mice overexpressing leptin were grafted on immunodeficient ob/ob mice. One month later, recipient mice reached body weight values of lean animals. Other biochemical and clinical parameters were also normalized. In a second human gene therapy approach, a retroviral vector encoding both leptin and EGFP cDNAs was used to transduce HK and, epithelial grafts enriched in high leptin-producing HK were transplanted to immunosuppressed ob/ob mice. HK-derived leptin induced body weight reduction after a drop in blood glucose and food intake. Leptin replacement through genetically engineered HK grafts provides a valuable therapeutic alternative for permanent treatment of human leptin deficiency conditions.

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A Comparison of Targeting Performance of Oncoretroviral Versus Lentiviral Vectors on Human Keratinocytes

et al. 2003

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The epidermis, like other rapidly renewing tissues, relies on a stem cell compartment to undergo constant regeneration. In order to develop realistic and long-lasting therapeutic approaches for some skin disorders, gene transfer to these critical cells must be obtained. While efficient retroviral ex vivo targeting and transgene integration in human keratinocytes is tightly dependent on proliferation, transferring genetic information to quiescent cells in culture also presents advantages, including the possibility of targeting putative dormant epidermal stem cells. In the present study we compared the efficiency of transduction achieved with a third-generation of human immunodeficiency virus (HIV)-based lentiviral vector to that obtained with a Moloney murine leukemia oncoretroviral vector (MLV) on proliferating and quiescent human keratinocytes growing in vitro in standard Rheinwald and Green cultures as well as in confluent organotypic cultures. Each viral vector contained the enhanced green fluorescent protein (EGFP) as a reporter gene. The lentiviral vector, but not the MLV vector, led to EGFP expression both in nondividing and proliferating epidermal cell populations in vitro. This feature was clearly evident when direct targeting of human keratinocytes, forming part of the epidermal component of an organotypic skin culture, was attempted. Keratinocytes modified by both MLV and the lentiviral vector allowed long-term regeneration of genetically engineered human skin on the backs of immunodeficient nonobese diabetic/severe combined immunodeficiency disorders (NOD/SCID) mice. However, EGFP transgene expression in the context of the MLV (long-terminal repeat [LTR]-driven) or lentiviral vector (cytomegalovirus [CMV]-driven) demonstrated clear differences both in quantitative terms and in the in vivo localization pattern.

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Robust IMC–PID tuning for cascade control systems with gain and phase margin specifications

Azar

Serrano

2014

Neural Comput & Applic

114

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Transplanted Long-Term Cultured Pre-Bi Cells Expressing Calpastatin Are Resistant to B Cell Receptor–Induced Apoptosis

Ruiz-Vela

Serrano

González

et al. 2001

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Long-term cultured pre-B cells are able to differentiate into immunoglobulin (Ig)M-positive B cells (IgM+ cells) when transplanted into severe combined immunodeficient (SCID) mice. Based on previous studies, here we report the development of a reconstitution assay in nonobese diabetic/SCID (NOD/SCID) mice using pre-B cells, which allows us to study the role of calpains (calcium-activated endopeptidases) during B cell development as well as in B cell clonal deletion. Using this model, we show that calpastatin (the natural inhibitor of calpains) inhibits B cell receptor–induced apoptosis in IgM+ cells derived from transplanted mice. We thus hypothesize an important function for calpain in sculpting the B cell repertoire.

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A Nd:YAG laser-microperforated poly(3-hydroxybutyrate-co-3-hydroxyvalerate)-basal membrane matrix composite film as substrate for keratinocytes

et al. 2007

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Design and Modeling of Anti Wind Up PID Controllers

Azar

Serrano

2014

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