GRASP negatively regulates the secretion of the virulence factor gp63 in Leishmania.

Metalloprotease-gp63 is a virulence factor secreted by Leishmania. However, secretory pathway in Leishmania is not well defined. Here, we cloned and expressed the GRASP homolog from Leishmania. We found that Leishmania expresses one GRASP homolog of 58 kDa protein (LdGRASP) which localizes in LdRab1- and LPG2-positive Golgi compartment in Leishmania. LdGRASP was found to bind with COPII complex, LdARF1, LdRab1 and LdRab11 indicating its role in ER and Golgi transport in Leishmania. To determine the function of LdGRASP, we generated LdGRASP knockout parasites using CRISPR-Cas9. We found fragmentation of Golgi in Ld:GRASPKO parasites. Our results showed enhanced transport of non-GPI-anchored gp63 to the cell surface leading to higher secretion of this form of gp63 in Ld:GRASPKO parasites in comparison to Ld:WT cells. In contrast, we found that transport of GPI-anchored gp63 to the cell surface is blocked in Ld:GRASPKO parasites and thereby inhibits its secretion. The overexpression of dominant-negative mutant of LdRab1 or LdSar1 in Ld:GRASPKO parasites significantly blocked the secretion of non-GPI-anchored gp63. Interestingly, we found that survival of transgenic parasites overexpressing Ld:GRASP-GFP is significantly compromised in macrophages in comparison to Ld:WT and Ld:GRASPKO parasites. These results demonstrated that LdGRASP differentially regulates Ldgp63 secretory pathway in Leishmania.

Beclin 1 controls pigmentation by changing the nuclear localization of melanogenic factor MITF.

The primary contributor for the determination of skin color is melanin, a pigment that is produced in specialized cells called melanocytes. At cellular level, melanin synthesis occurs through several enzymes like tyrosinase (TYR) and tyrosinase related proteins and the expression of these proteins are regulated transcriptionally by microphthalmia associated transcription factor (MITF). Melanin pigmentation is a complex process finely regulated by different transcription factors, structural proteins and enzymes. In recent times, several autophagic genes have been implicated in the regulation of pigmentation. Though previous report observed a visible loss of coat-color in heterozygous Beclin 1 mice, the role of this protein in pigmentation is yet to study in details. In this present work we intend to study the role of Beclin 1, a central autophagic factor, in pigmentation. Using human melanoma cells and primary melanocytes, we showed that Beclin 1 downregulation significantly decreased the melanin content, tyrosinase activity and the expression of TYR and tyrosinase related protein 1 (TYRP1). These effects were recapitulated in a Beclin 1 knockdown in vivo model of zebrafish. Most importantly, re-expression of Beclin 1 rescued the pigmentation-associated defects both in cellular and in organismal level indicating the specificity. Surprisingly, Beclin 1 knockdown cells did not show significant changes in MITF expression but the nuclear localization of MITF was altered. Together, these data suggest that indeed Beclin 1 is associated with melanogenesis and this effect is more likely exerted through the subcellular distribution rather than the change in expression of MITF.