Corneal epithelial stem cells for corneal injury

Introduction: Ocular surface diseases with limbal insufficiency represent a therapeutic challenge for restoring vision. This corneal deficiency includes both classical ocular diseases (as chemical burns) and rare ocular diseases (as congenital aniridia and ocular cicatricial pemphigoid).

Areas covered: Our understanding of limbal epithelial stem cells (LESCs) has increased the potential for treatment options. Pharmacological treatment strategies (as regenerating agent ophthalmic solutions) and especially surgical treatment strategies are available. Isolated LESCs can be produced by limbal primary cultures obtained from explants or cell suspensions. We review the latest cornea surgery techniques.

Expert opinion: The adjunction of human limbal mesenchymal cells as a support for limbal stem cell primary cultures appears to be of great interest. Recently, human-induced pluripotent stem cells have allowed the generation of minicorneal organoids. This potential means of creating a three-dimensional cornea with in vitro maturation opens up important research areas for corneal regeneration therapy.     

High and long‐term von Willebrand factor expression after Sleeping Beauty transposon‐mediated gene therapy in a mouse model of severe von Willebrand disease

Essentials

• von Willebrand disease (VWD) is the most common inherited bleeding disorder.
• Gene therapy for VWD offers long‐term therapy for VWD patients.
• Transposons efficiently integrate the large von Willebrand factor (VWF) cDNA in mice.
• Liver‐directed transposons support sustained VWF expression with suboptimal multimerization.

Summary

Background

Type 3 von Willebrand disease (VWD) is characterized by complete absence of von Willebrand factor (VWF). Current therapy is limited to treatment with exogenous VWF/FVIII products, which only provide a short‐term solution. Gene therapy offers the potential for a long‐term treatment for VWD.

Objectives

To develop an integrative Sleeping Beauty (SB) transposon‐mediated VWF gene transfer approach in a preclinical mouse model of severe VWD.

Methods

We established a robust platform for sustained transgene murine VWF (mVWF) expression in the liver of Vwf^?/? mice by combining a liver‐specific promoter with a sandwich transposon design and the SB100X transposase via hydrodynamic gene delivery.

Results

The sandwich SB transposon was suitable to deliver the full‐length mVWF cDNA (8.4 kb) and supported supra‐physiological expression that remained stable for up to 1.5 years after gene transfer. The sandwich vector stayed episomal (~60 weeks) or integrated in the host genome, respectively, in the absence or presence of the transposase. Transgene integration was confirmed using carbon tetrachloride‐induced liver regeneration. Analysis of integration sites by high‐throughput analysis revealed random integration of the sandwich vector. Although the SB vector supported long‐term expression of supra‐physiological VWF levels, the bleeding phenotype was not corrected in all mice. Long‐term expression of VWF by hepatocytes resulted in relatively reduced amounts of high‐molecular‐weight multimers, potentially limiting its hemostatic efficacy.

Conclusions

Although this integrative platform for VWF gene transfer is an important milestone of VWD gene therapy, cell type‐specific targeting is yet to be achieved.

     

Hydrogen sulfide: physiological properties and therapeutic potential in ischaemia

Hydrogen sulfide (H₂S) has become a molecule of high interest in recent years, and it is now recognized as the third gasotransmitter in addition to nitric oxide and carbon monoxide. In this review, we discuss the recent literature on the physiology of endogenous and exogenous H₂S, focusing upon the protective effects of hydrogen sulfide in models of hypoxia and ischaemia.

Linked Articles

This article is part of a themed section on Pharmacology of the Gasotransmitters. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2015.172.issue-6     

The Tridimensional Personality Questionnaire in Males at High and Low Risk for Alcoholism

Cloninger has proposed a tridimensional model as the basis for the classification of personality variants and has developed the Tridimensional Personality Questionnaire (TPQ) as an empirical test of this model. In this study, the TPQ was administered to two groups of young men. One group was comprised of nonalcoholic sons of male alcoholics; the other group consisted of nonalcoholic men with no family history of alcoholism. Since the sons of male alcoholics are considered to be at greater risk to develop alcoholism than the sons of nonalcoholics, it was hypothesized that the two groups would demonstrate differences with regard to one or more personality variants as measured by the TPQ. No statistically significant differences in the three TPQ-subscale scores of the two groups were found.     

Role of human immunodeficiency virus replication in defective in vitro growth of hematopoietic progenitors.

A number of hematologic abnormalities, including cytopenias, have been observed in patients with human immunodeficiency virus (HIV) infection. To elucidate their mechanisms, a group of 27 patients with HIV-1 infection was studied. In all patients, a marked reduction of in vitro colony formation by erythroid, granulomacrophagic, and megakaryocytic bone marrow progenitors was observed in comparison to normal donors. HIV-1 infection of marrow progenitors was investigated in studying individual colonies with the polymerase chain reaction (PCR) technique. No HIV-1 DNA could be detected in these colonies, suggesting either that marrow progenitors were not infected or that infected progenitors were not able to generate colonies in vitro. The addition of antisense oligonucleotides directed against HIV tat or nef sequences in the culture medium led to a significant increase in colony formation, suggesting that HIV replication in hematopoietic progenitors could be responsible for their defective growth. However, no HIV-1-infected colonies could be detected by PCR after the antisense treatment, indicating that the increase in colony number was not due to the proliferation and differentiation of infected progenitors but to an inhibition of HIV replication in an accessory cell. This last hypothesis was further confirmed by the absence of effects of antisense oligomers on the plating efficiency of hematopoietic progenitors grown from CD34+ cells. These data indicate that hematologic abnormalities of HIV-infected patients cannot be explained by a direct infection of hematopoietic progenitor cells and suggest that a defective modulation of progenitor cell growth by HIV replication outside these cells might play a role in these abnormalities.     

Reticulocytosis, hypochromia, and microcytosis: an unusual presentation of the preleukemic syndrome

Two patients exhibiting a highly unusual preleukemic syndrome with marked reticulocytosis, hypochromia, and microcytosis are reported. This red cell phenotype has been investigated by means of HbF, HbA2, and i-antigen activity dosages, immunofluorescence labeling of F cells, reticulocyte survival, globin chain synthesis, and electron microscopy study. The marked reticulocytosis is explained by a delayed disappearance of the reticulum. Serum iron is normal, and a thalassemic syndrome is excluded because of a balanced alpha/non-alpha globin chain synthesis. Electron microscopy studies are consistent with a defect in iron uptake by erythroid cells. All the hematologic data and investigations are similar to those observed for the Belgrade laboratory rat. It is hypothesized that the low expression of HbF and i- Ag associated with microcytosis are related to a prolongation of erythroid maturation as reflected by abnormal reticulocyte survival.